Calorimetric method + Photothermal interferometric Photoacoustic method Integrating sphere method Integrating plate method Integrating sandwich method Laser transmissometric method Visual comparator method Polar photometry method The aethalometer PSAP and MAAP Measurements and comparisons of techniques Miscelaneous More miscelaneous Organic x elemental carbon + some chemical analysis Electron microscopy Models and theoretical / radiative forcing Impactors, filtration and collecting aerosols ... Scattering Arctic, Antarctic, mountain 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 Not classified (yet ...) More not classified (yet ...)

Home My research S.Mogo publications

Calorimetric method + Photothermal interferometric (R)

1. Chan,C., Effective absorption for thermal blooming due to aerosols, Appl. Phys. Lett., Vol.26, No.11, pp.628-630, 1975.
2. Kaufman,Y., Gersten,A., Simultaneous heating and temperature measurements by an infrared laser beam, Appl. Opt., Vol.15, No.2, pp.353-357, 1976.
3. Kaufman,Y., Oppenheim,U., Time-resolved molecular excitation and heat effects induced by infrared radiation, Appl. Opt., Vol.16, No.7, pp.1931-1935, 1977.
4. Hänel,G., Hillenbrand,Ch., Calorimetric measurement of optical absorption, Appl. Opt., Vol.28, No.3, pp.510-516, 1989.
5. Sedlacek,A., Lee,J., Photothermal Interferometric Aerosol Absorption Spectrometry, Aerosol Science and Technology, Vol.41, pp.1089-1101, 2007.

Photoacoustic method (R)

1. Bennett,H., Forman,R., Absorption coefficients of weakly absorbing solids: theory of a barothermal gas cell, Appl. Opt., Vol.15, No.2, pp.347-352, February 1976.
2. Bennett,H., Forman,R., Photoacoustic methods for measuring surface and bulk absorption coefficients in highly transparent materials: theory of a gas cell, Appl. Opt., Vol.15, No.10, pp.2405-2413, October 1976.
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3. Rosencwaig,A., Gersho,A., Theory of the photoacoustic effect with solids, J.Appl.Phys., Vol.47, No.1, pp.64-69, 1976.
4. Bruce,C.W., Pinnick,R.G., In situ measurements of light absorption with a resonant cw laser spectrophone, Appl.Opt., 16, 1762-1765, 1977. (ntenho)
5. Terhune,R.W., Anderson,J.E., Spectrophone measurements of the absorption of visible light by aerosols in the atmosphere, Optics Letters, Vol.1, No.2, pp.70-72, 1977.
6. Roessler,D.M., Faxvog,F.R., Optoacoustic measurements of optical absorption in acetylene smoke, J.Opt.Soc.Am., Vol.69, No.12, pp.1699-1704, 1979.
7. Yasa,Z., Amer,N.M., Rosen,H., Hansen,A.D.A., Novakov,T., Photoacoustic investigation of the aerosol particles, Appl.Opt., 18, 2528-2530, 1979. (ntenho)
8. Foot,J.S., Spectrophone Measurements of the Absorption of Solar Radiation by Aerosol, Q.J.R.Meteorol.Soc., 105, 275-283, 1979. (ntenho)
9. Dinmukhametova,L.P., Mogilyuk,I.A., Toporkov,Y.G., Optical-microstructural characteristics of soil-derived aerosol, Izv. Atmos. Oceanic Sci., 22, 126-131, 1986. (ntenho)
10. Adams,K., Real-time in-situ measurements of atmospheric optical absorption in the visible via photoacoustic spectroscopy: evaluation of photoacoustic cells, Appl. Opt., Vol.27, No.19, pp.4052-4056, 1988. (ntenho)
11. Adams,K., Davis,L.I.Jr., Japar,S.M., Pierson,W.R., Real-time in situ measurement of atmospheric optical absorption in the visible via photoacoustic spectroscopy - validation for atmospheric elemental carbon aerosol, Atmospheric Environment, 23, 693-700, 1989. (ntenho)
12. Adams,K., Davis,L.I.Jr., Japar,S.M., Finley,D.R., Real-time in situ measurement of atmospheric optical absorption in the visible via photoacoustic spectroscopy, IV, Visibility degradation and aerosol optical properties in Los Angeles, Atmospheric Environment, Part A, 24, 605-610, 1990. (ntenho)
13. Arnott,W.P., Moosmüller,H., Rogers,C.F., Jin,T., Bruch,R., Photoacoustic spectrometer for measuring light absorption by aerosol: instrument description, Atmospheric Environment, Vol.33, pp.2845-2852, 1999. (estão em "Measurements and comparisons of techniques")
14. Arnott,W.P., Moosmüller,H., Walker,J.W., Nitrogen dioxide and kerosene-flame soot calibration of photoacoustic instruments for measurement of light absorption by aerosols, Rev. Sci. Instruments, 71, 4545-4552, 2000. (ntenho)
15. Arnott,W.P., Walker,J.W., Moosmüller,H., Elleman,R., Jonsson,H., Buzorius,G., Conant,W., Flagan,R., Seinfeld,J., Photoacoustic insight for aerosol light absorption aloft from meteorological aircraft and comparison with particle soot absorption photometer measurements: DOE Southern Great Plains climate research facility and the coastal stratocumulus imposed perturbation experiments, Journal of Geophysical Research, Vol.111, D05S02, doi:10.1029/2005JD005964, 2006.
16. Lack,D., Lovejoy,E., Baynard,T., Pettersson,A., Ravishankara,A., Aerosol Absorption Measurement using Photoacoustic Spectroscopy: Sensitivity, Calibration, and Uncertainty Developments, Aerosol Science and Technology, Vol.40, No.9, pp.697-708, 2006.
17. Lewis,K., Arnott,W., Moosmüller,H., Wold,C., Strong spectral variation of biomass smoke light absorption and single scattering albedo observed with a novel dual-wavelength photoacoustic instrument, Journal of Geophysical Research, Vol.113, D16203, doi:10.1029/2007JD009699, 2008.
18. Massoli,P., Bates,T., Quinn,P., Lack,D., Baynard,T., Lerner,B., Tucker,S., Brioude,J., Stohl,A., Williams,E., Aerosol optical and hygroscopic properties during TexAQS-GoMACCS 2006 and their impact on aerosol direct radiative forcing, Journal of Geophysical Research, Vol.114, D00F07, doi:10.1029/2008JD011604, 2009.
19. Wehner,B., Berghof,M., Cheng,Y., Achtert,P., Birmili,W., Nowak,A., Wiedensohler,A., Garland,R., Pöschl,U., Hu,M., Zhu,T., Mixing state of nonvolatile aerosol particle fractions and comparison with light absorption in the polluted Beijing region, Vol. 114, D00G17, 2009
20. Cheng,Y., Berghof,M., Garland,R., Wiedensohler,A., Wehner,B., Müller,T., Su,H., Zhang,Y., Achtert,P., Nowak,A., Pöschl,U., Zhu,T., Hu,M., Zeng,L., Influence of soot mixing state on aerosol light absorption and single scattering albedo during air mass aging at a polluted regional site in northeastern China, Vol. 114, D00G10, 2009

Integrating sphere method

1. Fischer,K., Mass absorption coefficients of natural aerosol particles in the 0,4 to 2,4 µm wavelenght interval, Contr. Atmos. Phys., 46, 89-100, 1973.
2. Lindberg,J.D., Laude,L.S., Measurement of the absorption coefficient of atmospheric dust, Appl. Opt., Vol.13, No.8, pp.1923-1927, 1974.
3. Lindberg,J.D., Absorption coefficient of atmospheric dust and other strongly absorbing powders: an improvment on the method of measurement, Appl. Opt., Vol.14, No.12, pp.2813-2815, 1975.
4. Heintzenberg,J., Size-segregated measurements of particulate elemental carbon and light absorption at remote Arctic locations, Atmospheric Environment, Vol.16, No.10, pp.2461-2469, 1982.
5. Heintzenberg,J., Measurement of the light absorption and elemental carbon in atmospheric aerosol samples from remote locations, In Particulate Carbon, Atmospheric Life Cycle, (edited by Wolff G.T. and Klimisch R.), pp.371-386, Plenum Press, New York, 1982.
6. Gillespie,J.B., Lindberg,J.D., Seasonal and geographic variations in imaginary refractive index of atmospheric particulate matter, Appl. Opt., Vol.31, No.12, 2107-2111, 1992.
7. Gillespie,J.B., Lindberg,J.D., Ultraviolet and visible imaginary refractive index of strongly absorbing atmospheric particulate matter, Appl. Opt., Vol.31, No.12, 2112-2115, 1992.
8. Lindberg,J.D., Douglass,R.E., Garvey,D.M., Absorption-coefficient-determination method for particulate materials, Appl. Opt., Vol.33, No.19, 4314-4319, 1994.
9. Hitzenberger,R., Dusek,U., Berner,A., Black carbon measurements using an integrating sphere, J. Geophys. Res., Vol.101, No.D14, pp.19,601-19,606, 1996.
10. Marley,N., Gaffney,J., Baird,J., Blazer,C., Drayton,P., Frederick,J., An empirical method for the determination of the complex refractive index of size-fractionated atmospheric aerosols for radiative transfer calculations, Aerosol Science and Technology, Vol.34, pp.535-549, 2001.
11. Hitzenberger,R., Berner,A., Measurement of the water and black carbon content of atmospheric aerosol samples, EUROTROAC-2 (A EUREKA Environmental Project) AEROSOL Final Report, pp.85-89, 2003.

Integrating plate method

1. Lin,C.I., Baker,M., Charlson,R.J., Absorption coefficient of atmospheric aerosols: a method for measurement, Appl. Opt., Vol.12, No.6, pp.1356-1363, 1973.
2. Weiss,R.E., Waggoner,A.P., Thorsell,D.L., Hall,J.S., Riley,L.A., Charlson, R.J., Studies of the optical, physical and chemical properities of light absorbing aerosols, Proceedings, Conference on Carbonaceous Particles in the Atmosphere, Lawrence Berkeley Laboratory, Berkeley, California, LBL-9037, 257-263, 1979 (NTIS, Springfield, Va. 22161, 1979).
3. Waggoner,A.P., Weiss,R.E., et al., Optical Characteristics of atmospheric aerosols, Atmospheric Environment, 15, 1891-1909, 1981.
4. Clarke,A.D., Waggoner,A.P., Measurement of particle optical absorption, imaginary refractive index, mass concentration, and size at First International LAAP Workshop, Appl.Opt., Vol.21, No.3, pp.398-402, 1982.
5. Clarke,A.D., Effects of filter internal reflection coefficient on light absorption measurements made using the integrating plate method, Appl.Opt., Vol.21, No.16, pp.3021-3031, 1982.
6. Patterson,E., McMahon,C., Absorption characteristics of forest fire particulate matter, Atmospheric Environment, Vol.18, No.11, pp.2541-2551, 1984.
7. Lewis,C.W., Dzubay,T.G., Aerosol Sci. Technol., 5:325-336, 1986.
8. Horvath,H., Habenreich,T.A.H., Absorption coefficient of the Vienna aerosol: comparison of two methods, Aerosol Sci. Technol., Vol.10, pp.506-514, 1989.
9. Horvath,H., Metzig G., Experimental determination of the accuracy of light absorption mesurements with the integrating plate method, J.Aerosol Sci., Vol.21, Suppl.1, pp.s525-s528, 1990.
10. Hansen,A.D.A., Kapustin,V.N., Kopeikin,V.M., Gillette,D.A., Bodhaine,B.A., Optical absorption by aerosol black carbon and dust in a desert region of Soviet Central Asia, Atmospheric Environment, Vol.27A, No.16, pp.2527-2531, 1993.
11. Horvath,H., Experimental calibration for aerosol light absorption measurements using the integrating plate method - summary of the data, J.Aerosol Sci., Vol.28, No.7, pp.1149-1161, 1997.
12. Horvath,H., Systematic deviations of light absorption measurements by filter transmission methods, J.Aerosol Sci., Vol.28, Supplement 1, pp.S55-S56, 1997.
13. Heintzenberg,J., Bussemer,M., Development and application of a spectral light absorption photometer for aerosol and hydrosol samples, J.Aerosol Sci., Vol.31, No.7, pp.801-812, 2000.
14. Chow,J., Lowenthal,D.H., Watson,J.G., Kohl,S.D., Hinsvark,B.A., Hackett,E.I., McCormack,J.K., Light absorption by black sand dust, Appl.Opt., Vol.39, No.24, pp.4232-4236, 2000.
15. Gramsch,E., Catalán,L., Ormeño,I., Palma,G., Traffic and seasonal dependence of the light absorption coefficient in Santiago de Chile, Appl.Opt., Vol.39, No.27, pp.4895-4901, 2000.
16. Aoki,T., Aoki,T., Fukabori,M., Hachikubo,A., Tachibana,Y., Nishio,F., Effects of snow physical parameters on spectral albedo and bidirectional reflectance of snow surface, Journal of Geophysical Research, Vol.105, No.D8, pp.10,219-10,236, 2000.
17. Gangl,M., Horvath,H., Experimental investigation of the absorption of internally mixed black carbon particles, In International Aerosol Conference, Summer 2002.
18. Taha,G., Box,G., Cohen,D., Stelcer,E., Black carbon measurement using laser integrating plate method, Aerosol Science & Technology, Vol41, pp.266-276, 2007.

Integrating sandwich method (R)

1. Clarke,A.D., Integrating sandwich. A new method of measurement for the light absorption coefficient for atmospheric particles, Applied Optics, Vol.21, No.16, pp.3011-3020, 1982.
2. Clarke,A.D., Aerosol light absorption by soot in remote environments, Aer. Sci. Tech, 10, 161-171, 1989. (ntenho)

Laser transmissometric method (R)

1. Rosen H., Hansen,A.D.A., Gundel,L., Novakov,T., Identification of the optically absorbing component in urban aerosols, Applied Optics, Vol.17, No.24, pp.3859-3861, 1978.
2. Rosen,H., Novakov,T., Bodhaine,B.A., Soot in the Arctic, Atmospheric Environment, Vol.15, No.8, pp.1371-1374, 1981.
3. Rosen,H., Novakov,T., Optical transmission through aerosol deposits on diffusively reflective filters: a method for measuring the absorbing component of aerosol particles, Applied Optics, Vol.22, No.9, pp.1265-1267, 1983.
4. Chou,C., Chen,T.-K., Huang,S.-H., Liu,S., Radiative absorption capability of asian dust with black carbon contamination, Geophysical Research Letters, Vol.30, No.12, 1616, doi:10.1029/2003GL017076, 2003.
5. Chou,C., Chen,W.-N., Chang,S.-Y., Chen,T.-K., Huang,S.-H., Specific cross-section and elemental carbon content of urban aerosols, Geophysical Research Letters, Vol.32, L21808, doi:10.1029/2005GL024301, 2005.

Visual comparator method (R)

1. Twomey,S., Direct visual photometric technique for estimating absorption in collected aerosol samples, Applied Optics, Vol.19, No.11, pp.1740-1741, 1980.

Polar photometry method (R)

1. Hänel,G., Single scattering albedo, asymmetry parameters, apparent refractive index and apparent soot content of dry atmospheric particles, Applied Optics, Vol.27, No.11, pp.2287-2295, 1988.
2. Hänel,G., Optical properties of atmospheric particles: complete parameter sets obtained throught polar photometry and an improved inversion technique, Applied Optics, Vol.33, No.30, pp.7187-7199, 1994.
3. Kopp,C., Petzold,A., Niessner,R., Investigation of the specific attenuation cross-section of aerosols deposited on fiber filters with a polar photometer to determine black carbon, J.Aerosol Sci., Vol.30, No.9, pp.1153-1163, 1999.

The aethalometer (R)

(Tenho uma bibliografia muito + completa enviada directamente pelo autor: Selected reprints - Taken from the scientific literature on the topic of Aerosol Black Carbon)
1. Magee Scientific Company
2. Hansen,A.D.A., Rosen,H., Novakov,T., Real-time measurements of the absorption coefficient of aerosol particles, Applied Optics, Vol.21, No.17, pp.3060-3062, 1982.
3. Hansen,A.D.A., Rosen,H., Novakov,T., The Aethalometer - an instrument for the real-time measurement of optical absorption by aerosol particles, Science of the Total Environment, Vol.36, pp.191-196, 1984.
4. Hansen,A.D.A., Novakov,T., Real-time measurement of aerosol black carbon during the carbonaceous species methods comparision study, Aerosol Science and Technology, Vol.12, pp.194-199, 1990.
5. Bahrmann,C., Saxena,V., Influence of air mass history on black carbon concentration and regional climate forcing in southeastern United States, Journal of Geophysical Research, Vol.103, No.D18, pp.23,153-23,161, 1998.
6. Babich,P., Davey,M., Allen,G., Koutrakis,P., Method comparisons for particulate nitrate, elemental carbon and PM_2.5 mass in seven U.S. cities, J. Air & Waste Manage. Assoc., Vol.50, pp.1095-1105, 2000.
7. Fialho,P., Hansen,A., Honrath,R., Absorption coefficients by aerosols in remote areas: a new approach to decouple dust and black carbon absorption coefficients using seven-wavelength Aethalometer data, J.Aerosol Sci., Vol.36, pp.267-282, 2005.
8. Tripathi,S., Dey,S., Tare,V., Satheesh,S., Lal,S., Venkataramani,S., Enhanced layer of black carbon in a north Indian industrial city, Geophys.Res.Lett., Vol.32, L12802, doi:10.1029/2005GL022564, 2005.
9. Ganguly,D., Jayaraman,A., Gadhavi,H., Rajesh,T., Features in wavelength dependence of aerosol absorption observed over central India, Geophys.Res.Lett., Vol.32, L13821, doi:10.1029/2005GL023023, 2005.
10. Moorthy,K., Satheesh,S., Babu,S., Saha,A., Large latitudinal gradients and temporal heterogeneity in aerosol black carbon and its mass mixing ratio over southern and northern oceans observed during a trans-contiental cruise experiment, Geophys.Res.Lett., Vol.32, L14818, doi:10.1029/2005GL023267, 2005.
11. Wang,G., Bai,J., Kong,Q., Emilenko,A., Black carbon particles in the urban atmosphere in Beijing, Advances in Atmospheric Sciences, Vol.22, No.5, pp.640-646, 2005.
12. Tripathi,S., Dey,S., Tare,V., Aerosol black carbon radiative forcing at an industrial city in northern India, Geophys. Res. Lett., Vol.32, L08802, doi:10.1029/2005GL022515, 2005.
13. Arnott,P., Hamasha,K., Moosmüller,H., Sheridan,P., Ogren,J., Towards aerosol light absorption measurements with a 7-wavelength Aethalometer: Evaluation with a photoacoustic instrument and a 3 wavelength nephelometer, Aerosol Science & Technology, Vol.39, pp.17-29, 2005.
14. Cheng,Y., Lee,S., Ho,K., Wang,Y., Cao,J., Chow,J., Watson,J., Black carbon measurement in a coastal area of south China, Journal of Geophysical Research, Vol.111, D12310, doi:10.1029/2005JD006663, 2006.
15. Hyvärinen,A.-P., Lihavainen,H., Komppula,M., Sharma,V., Kerminen, V.-M., Panwar,T., Viisanen,Y., Continuous measurements of optical properties of atmospheric aerosols in Mukteshwar, northern India, Journal of Geophysical Research, Vol. 114, No. D8, D08207, 2009.
16. Beegum,S., Moorthy,K., Babu,S., Satheesh,S., Vinoj,V., Badarinath,K., Safai,P., Devara,P., Singh,S., Vinod, Dumka,U., Pant,P., Spatial distribution of aerosol black carbon over India during pre-monsoon season, Atmospheric Environment, Vol.43, pp. 1071-1078, 2009.
17. Gadhavi,H., Jayaraman,A., Absorbing aerosols: contribution of biomass burning and implications for radiative forcing, Annales Geophysicae, Vol.28, pp.103-111, 2010.

PSAP and MAAP (R)

1. Description of Particle Soot Absorption Photometer (PSAP)
2. Anderson,T., Covert,D., Wheeler,J., Harris,J., Perry,K., Trost,B., Jaffe,D., Ogren,J., Aerosol backscatter fraction and single scattering albedo: Measured values and uncertainties at a coastal station in the Pacific Northwest, Journal of Geophysical Research, Vol.104, No.D21, pp.26,793-26,807, 1999.
3. Petzold,A., Schönlinner,M., Multi-angle photometry --- a new method for the measurement of aerosol light absorption and atmospheric black carbon, Jounal of Aerosol Science, Vol.53, pp.421-441, 2004.
4. Petzold,A., Schloesser,H., Sheridan,P., Arnott,W.P., Ogren,J., Virkkula,A., Evaluation of multiangle absorption photometry for measuring aerosol light absorption, Aerosol Science and Technology, Vol.39, pp.40-51, 2005.
5. Virkkula,A., Ahlquist,N., Covert,D., Arnott,W., Sheridan,P., Quinn,P., Coffman,D., Modification, calibration and a field test of an instrument for measuring light absorption by particles, Aerosol Science & Technology, pp.68-83, 2005.
6. Springston,S., Sedlacek III,A., Noise characteristics of an instrumental particle absorbance technique, Aerosol Science & Technology, Vol.41, pp.1110-1116, 2007.
7. Cappa,C., Bates,T., Quinn,P., Lack,D., Source characterization from ambient measurements of aerosol optical properties, Geophysical Research Letters, Vol. 36, No. 14, L14813, 2009.
8. Müller,T., Schladitz,A., Massling,A., Kaaden,N., Kandler,K., Spectral absorption coefficients and imaginary parts of refractive indices of Saharan dust during SAMUM-1, Tellus, Vol.61B, pp.79-95, 2009.
9. Khatri,P., Ishizaka,Y., Takamura,T., A Study on Aerosol Optical Properties in an Urban Atmosphere of Nagoya, Japan, Journal of the Meteorological Society of Japan, Vol.87, no1, pp.19-38, 2009.
10. Lack,D., Quinn,P., Massoli,P. Bates,T., Coffman,D., Covert,D., Sierau,B., Tucker,S., Baynard,T., Lovejoy,E., Murphy,D., Ravishankara,A., Relative humidity dependence of light absorption by mineral dust after long-range atmospheric transport from the Sahara, Geophysical Research Letters, Vol. 36, L24805, 2009.
11. Lyamani,H., Olmo,F., Alados-Arboledas,L., Physical and optical properties of aerosols over an urban location in Spain: seasonal and diurnal variability, Atmos. Chem Phys., Vol.10, pp.239-254, 2010.

Measurements and comparisons of techniques (R)

1. Szkarlat,A.C., Japar,S.M., Light absorption by airbone aerosols: Comparison of integrating plate and spectrophone techniques, Appl.Opt., 20, 1151-1155, 1981. (ntenho)
2. Sadler,M., Charlson,R.J., Rosen,H., Novakov,T., An intercomparision of the integrating plate and the laser transmission methods for determination of aerosol absorption coefficients, Atmospheric Environment, Vol.15, No.7, pp.1265-1268, 1981. (ntenho)
3. Stevens,R.K., McClenny,W.A., Dzubay,T.G., Masen,N.A., Courtney,W.J., In Particulate Carbon, Atmospheric Life Cycle (G.T. Wolff and R.L.Klimisch, eds.) Plenum, New York, pp.111-126, 1982.
4. Bennett,C.A.Jr., Patty,R.R., Monitoring particulate carbon collected on Teflon filters: an evaluation of photoacoustic and transmission techniques Appl. Opt., Vol.21, No.3, pp.371-374, 1982.
5. Gerber,H.E., Hindman,E.E., Light absorption by aerosol particles: First International Workshop, Appl. Opt., Vol.21, No.3, pp.370, 1982.
6. Gerber,H.E., Hindman,E.E., Light absorption by aerosol particles, Spectrum Press, 1982.
7. Hänel,G., Busen,R., Hillenbrand,C., Schloss,R., Light absorption measurements: new techniques, Appl. Opt., Vol.21, No.3, pp.382-386, 1982.
8. Ramsey-Bell,O.C., Couture,G., Comparison of three methods for measuring light absorption by collected aerosols, Appl.Opt., Vol.24, No.15, pp.2397-2400, 1985.
9. Clarke,A.D., Noone,K.J., Heintzenberg,J., Warren,S.G., Covert,D.S., Aerosol light absorption measurement techniques: analysis and intercomparisons, Atmospheric Environment, Vol.21, No.6, pp.1455-1465, 1987.
10. Campbell,D., Copeland,S., Cahill,T., Eldred,R., Cahill,C., Vasenka,J., The coefficient of optical absorption from particles deposited on filters: integrating plate, integrating sphere, and coefficient of haze measurements, presented at the 82nd Annual Meeting and Exhibition of the Air and Waste Management Association, Anaheim, California, 25-30 June, 1989. (ntenho)
11. Ruoss,R., Dlugi,R., Weigl,C., Hänel,G., Intercomparison of different aethalometers with an absorption technique: laboratory calibrations and field measurements, Atmospheric Environment, 26A, 3161-3168, 1992. (ntenho)
12. Horvath,H., Atmospheric light absorption - a review, Atmospheric Environment, Vol.27A, No.3, pp.293-317, 1993.
13. Horvath,H., Comparison of measurements of the aerosol optical absorption by filter collection and a transmissometric method, Atmospheric Environment, Vol.27A, No.3, pp.319-325, 1993.
14. Horvath,H, Itoh,M., Preining,O., Light extinction and light absorption of the Kyoto aerosol, , Vol.9, No.4, pp.330-337, 1994.
15. Campbell,D., Copeland,S., Cahill,T., Measurement of aerosol absorption coefficient from Teflon filters using integrating plate and integrating sphere techniques, Aerosol Sci. Technol., 22, 287-292, 1995. (ntenho)
16. Huffman,H.D., Comparison of the light absorption coefficient and carbon measures for remote aerosols: an independent analysis of data from the IMPROVE network I, Atmospheric Environment, Vol.30, No.1, pp.73-83 and 85-99, 1996.
17. Huffman,H.D., The reconstruction of aerosol light absorption by particle measurements at remote sites: an independent analysis of data from the IMPROVE network II, Atmospheric Environment, Vol.30, No.1, pp.85-99, 1996.
18. Clarke,A., Ogren,J., Charlson,R., Comment on measurement of aerosol absorption coefficient from Teflon filters using integrating plate and integrating sphere techniques by D. Campbell, S. Copeland, and T. Cahill, Aerosol Sci. Technol., 24, 221-224, 1996. (ntenho)
19. Campbell,D., Copeland,S., Cahill,T., Response to 'Comment on measurement of aerosol absorption coefficient from Teflon filters using integrating plate and integrating sphere techniques by D. Campbell, S. Copeland, and T. Cahill' by A. Clarke, J. Ogren, R. Charlson, Aerosol Sci. Technol., 24, 225-229, 1996. (ntenho)
20. Pesava,P., Horvath,H., Comparision of two measurements methods for spectral extinction of the atmospheric aerosol, J. Aerosol Sci., Vol.28, Supplement 1, pp.S661-S662, 1997.
21. Moosmüller,H., Arnott,W.P., Rogers,C.F., Chow,J.C., Frazier,C.A., Sherman,L.E., Dietrich,D.L., Photo-acoustic and filter measurements related to aerosol light absorption during the Northern Front Range Air Quality Study (Colorado 1996/1997), J. Geophys. Res. Atmos., 103, 28, 28,149-28,157, 1998. (ntenho)
22. Reid,J.S., P.V.Hobbs, C.Liousse, J.V.Martins, R.E.Weiss, T.F.Eck, Comparisons of techniques for measuring shortwave absorption and black carbon content of aerosols from biomass burning in Brazil, J. Geophys. Res., 103, 32,031-32,040, 1998a. (ntenho)
23. Hitzenberger,R., Jennings,S., Larson,S., Dillner,A., Cachier,H., Galambos,Z., Rouc,A., Spain,T., Intercomparison of measurement methods for black carbon aerosols, Atmospheric Environment, 33, 2823-2833, 1999.
24. Arnott,W.P., Moosmüller,H., Rogers,C.F., Jin,T., Bruch,R., Photoacoustic spectrometer for measuring light absorption by aerosols: Instrument description, Atmospheric Environment, 33, 2845-2852, 1999.
25. Seidl,S., Wex,H., Kaller,W., Horvath,H., Extinction, absorption and scattering coefficients measured with three different instruments during LACE 98 - a comparison, J.Aerosol Sci., Vol.30, Supplement 1, pp.S479-S480, 1999.
26. Kaller,W., Wex,H., Seidl,S., Horvath,H., Horizontal extinction of ambient aerosol and scattering of dried aerosol during the LACE 98 experiment a comparison, J.Aerosol Sci., Vol.30, Supplement 1, pp.S521-S522, 1999.
27. Bond,T.C., Anderson,T.L., Campbell,D., Calibration and intercomparison of filter-based measurements of visible light absorption by aerosols, Aerosol Sci. and Tech., 30(6), 582-600, 1999.
28. Ogren,J.A., Characterization of Methods for Measuring Aerosol Light Absorption, http://www.cmdl.noaa.gov/hotitems/bapogren.html, 2001.
29. Arnott,W.P., Moosmüller,H., Sheridan,P.J., Ogren,J.A., Raspet,R., Slaton,W.V., Hand,J.L., Kreidenweis,S.M., Collett Jr.,J.L., Photoacoustic and filter-based ambient aerosol light absorption measurements: Instrument comparisons and the role of relative humidity, Journal of Geophysical Research, Vol.108, No.D1, 4034, 2003.
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Miscelaneous (R)

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Organic x elemental carbon + some chemical analysis (R)

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37. email coluna de cromatografia
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42. Organic Aerosols: OC Absorption
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45. LECO (carbon.txt)
46. LECO procedure
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50. Viana,M., Chi,X., Maenhaut,W., Querol,X., Alastuey,A., Mikuška,P., Večeřa,Z., Organic and elemental carbon concentrations in carbonaceous aerosols during summer and winter sampling campaigns in Barcelona, Spain, Atmospheric Environment, Vol.40, pp.2180-2193, 2006.
51. Schnaiter,M., Gimmler,M., Llamas,I., Linke,C., Jäger,C., Mutschke,H., Strong spectral dependence of light absorption by organic carbon particles formed by propane combustion, Atmos. Chem. Phys., Vol.6, pp.2981-2990, 2006.
52. Andreae,M., Gelencs&eacut;r, Black carbon or brown carbon? The nature of light-absorbing carbonaceous aerosol, Atmos. Chem. Phys., Vol.6, pp.3131-3148, 2006.
53. Tsyro,S., Simpson,D., Tarrasón,L., Klimont,Z., Kupiainen,K. Pio,C., Yttri,K., Modeling of elemental carbon over Europe, Journal of Geophysical Research, Vol.112, D23S19, doi:10.1029/2006JD008164, 2007.
54. Yttri,K., Aas,W., Bjerke,A., Cape,J., Cavalli,F., Ceburnis,D., Dye,C., Emblico,L., Facchini,M., Forster,C., Hanssen,J., Hansson,H., Jennings,S., Maenhaut,W., Putaud,J., Tørseth,K., Elemental and organic carbon in PM10: a one year measurement campaign within the European Monitoring and Evaluation Programme EMEP, Atmos. Chem. Phys., Vol.7, pp.5711-5725, 2007.
55. Schwarz,J., Gao,R., Spackman,J., Watts,L., Thomson,D., Fahey,D., Ryerson,T., Peischl,J., Holloway,J., Trainer,M., Frost,G., Baynard,T., Lack,D., de Gouw,J., Warneke,C., Del Negro,L., Measurement of the mixing state, mass, and optical size of individual black carbon particles in urban and biomass burning emissions, Geophysical Research Letters, Vol.35, L13810, doi:10.1029/2008GL033968, 2008.

Electron microscopy (R)

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2. Ferek,R., Lazrus,A., Winchester,J., Electron microscopy of acidic aerosols collected over the northeastern United States, Atmospheric Environment, Vol.17, No.8, pp.1545-1561, 1983.
3. Sheridan,P., Musselman,I., Characterization of aircraft-collected particles present in the artic aerosol; Alaskan Arctic, Spring 1983, Atmospheric Environment, Vol.19, No.12, pp.2159-2166, 1985.
4. Sheridan,P., Characterization of size segregated particles collected over Alaska and the Canadian high Arctic, AGASP-II flights 204-206, Atmospheric Environment, Vol.23, No.11, pp.2371-2386, 1989.
5. Anderson, J., Buseck, P., Saucy, D., and Pacyna, J., Characterization of individual fine-fraction particles from the Arctic aerosol at SPITsbergen, May-June 1987, Atmospheric Environment, Vol.26A, No.9, pp.1747--1762, 1992.
6. Sheridan,P., Schnell,R., Kahl,J., Boatman,J., Garvey,D., Microanalysis of the aerosol collected over south-central New Mexico during the alive field experiment, May-December 1989, Atmospheric Environment, Vol.27A, No.8, pp.1169-1183, 1993.
7. Liousse,C., Cachier,H., Jennings,S., Optical and thermal measurements of black carbon aerosol content in different environments: variation of the specific attenuation cross-section, sigma ($\sigma$) , Atmospheric Environment, Vol.27A, No.8, pp.1203-1211, 1993. (arquivado na pasta "Organic x elemental carbon")
8. McMurry.P., Litchy,M., Huang,P.-F., Cai,X., Turpin,B., Dick,W., Hanson,A., Elemental composition and morphology of individual particles separated by size and hygroscopicity with the TDMA, Atmospheric Environment, Vol.30, No.1, pp.101-108, 1996.
9. Pósfai, M., Anderson, J., Buseck, P.R. Soot and sulfate aerosol particles in the remote marine troposphere, Journal of Geophysical Research, Vol 104, No. D14, pp.21,685-21,693, 1999.
10. Buseck,P., Pósfai,M., Airbone minerals and related aerosol particles: effects on climate and environment, Proc.Natl.Acad.Sci., Vol.96, pp.3372-3379, 1999.
11. Conner,T., Norris,G., Landis,M., Williams,R., Individual particle analysis of indoor, outdoor, and community samples from the 1998 Baltimore particulate matter study, Atmospheric Environment, Vol.35, pp.3935-3946, 2001.
12. Ro,C.-U., Oh,K.-Y., Kim,H., Chun,Y., Osán,J., Hoog,J., Grieken,R., Chemical speciation of individual atmospheric particles using low-Z electron probe X-ray microanalysis: characterizing "Asian Dust" deposited with rainwater in Seoul, Korea, Atmospheric Environment, Vol.35, pp.4995-5005, 2001.
13. Malderen,H., Hoornaert,S., Injuk,J., Przybylowicz,W., Pineda,C., Prozesky,V., Grieken,R., Individual particle characterization of Siberian aerosols by micro-PIXE and backscattering spectrometry, X-Ray Spectrometry, Vol.30, pp.320-329, 2001.
14. Hasegawa,S., Ohta,S., Some measurements of the mixing state of soot-containing particles at urban and non-urban sites, Atmospheric Environment, Vol.36, pp.3899-3908, 2002. (arquivado na pasta "Organic x elemental carbon")
15. Franck,U., Herbarth,O., Using scanning electron microscopy for statistical characterization of the diameter and shape of airborne particles at an urban location, Environmental Toxicology, Vol.17, No.2, pp.98-104, 2002.
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17. ver tb. Saathoff et al, Journal of aerosol science, 34, 1277-1296, 2003; Saathoff et al, Journal of aerosol science, 34, 1297-1321, 2003; Wentzel et al, Journal of aerosol science, 34, 1347-1370, 2003 (TEM).
18. Pósfai, M., Simonics, R., Li, J., Hobbs, P., Buseck, P.R., Individual aerosol particles from biomass burning in southern Africa: 1. Compositions and size distributions of carbonaceous particles, Journal of Geophysical Research, Vol 108, No. D13, 8483 doi:10.1029/2002JD002291, 2003.
19. Li, J., Pósfai, M., Hobbs, P., Buseck, P.R. Individual aerosol particles from biomass burning in southern Africa: 2. Compositions and aging of inorganic paarticles, Journal of Geophysical Research, Vol 108, No. D13, 8484 doi:10.1029/2002JD002310, 2003.
20. email opinião 24 Maio 2004
21. Pósfai, M., Gelencsér,A., Simonics,R., Arató,K., Li,J., Hobbs, P., Buseck, P., Atmospheric tar balls: particles from biomass and biofuel burning, Journal of Geophysical Research, Vol 109, D06213 doi:10.1029/2003JD004169, 2004.
22. Shi,Z., Shao,L., Jones,T., Lu,S., Microscopy and mineralogy of airbone particles collected during severe dust storm episodes in Beijing, China, Journal of Geophysical Research, Vol.110, D01303, doi:10.1029/2004JD005073, 2005.
23. Sivaramakrishnan,K., Wallace-Duckworth,D., Wells,M., Chong,N.-S., Characterization of inhalable particulate matter in ambient air by scanning electron microscopy and energy-disperive X-ray analysis, http://www.mtsu.edu/~scientia/journals/vol8/issue2/Kavitha.htm, Vol.8, No.2.
24. Particle by particle characterization using SEM-EDXA, http://www.sandrelli.net.net/semedxa.html.
25. Hwang,H., Ro,C.-U., Single-particle characterization of four aerosol samples collected in ChunCheon, Korea, during Asian dust storm events in 2002, Journal of Geophysical Research, Vol.110, D023201, doi:10.1029/2005JD006050, 2005.
26. Mogo,S., Cachorro,V., de Frutos,A., Morphological, chemical and optical absorbing characterization of aerosols in the urban atmosphere of Valladolid. Atmospheric Chemistry and Physics, Vol.5, pp.2739-2748, 2005.
27. review
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29. Vester,B., Ebert,M., Barnert,E., Schneider,J., Kandler,K., Schütz,L., Weinbruch,S., Composition and mixing state of the urban background aerosol in the Rhein-Main area (Germany), Atmospheric Environment, Vol.41, pp.6102-6115, 2007.
30. Helas,G., Andreae,M., Surface features on Sahara soil dust particles made visible by atomic force microscope (AFM) phase images, Atmospheric Measurement Techniques, Vol.1, pp.1-8, 2008.
31. Nguyen,H., Martinsson,B., Wagner,J., Carlemalm,E., Ebert,M., Weinbruch,S., Brenninkmeijer,C., Heintzenberg,J., Hermann,M., Schuck,T., van Velthoven,P., Zahn,A., Chemical composition and morphology of individual aerosol particles from CARIBIC flight at 10 km altitude between 50°N and 30°S, Journal of Geophysical Research, Vol.113, D23209, doi:10.1029/2008JD009956, 2008.
32. Adachi,K., Buseck,P., Internally mixed soot, sulfates, and organic matter in aerosol particles from Mexico City, Atmospheric Chemistry and Physics, Vol.8, pp.6469-6481, 2008.
33. Shi,Z., He,K., Xue,Z., Yang,F., Chen,Y., Ma,Y., Luo,J., Properties of individual aerosol particles and their relation to air mass origins in a south China coastal city, Journal of Geophysical Research, Vol. 114, No. D9, D09212, 2009.
34. Li,W., Shao,L., Transmission electron microscopy study of aerosol particles from the brown hazes in northern China, Journal of Geophysical Research, Vol. 114, No. D9, D09302, 2009.

Models and theoretical / Radiative forcing (R)

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12. Sokolik,I., Toon,O.B., Bergstrom,R.W., Modeling the radiative characteristics of airbone mineral aerosols at infrared wavelenghts, Journal of Geophysical Research, Vol.103, No.D8, pp.8813-8826, 1998.
13. Ricchiazzi,P., Yang,S., Gautier,C., Sowle,D., SBDART: A research and teaching software tool for plane-parallel radiative transfer in the Earth's Atmosphere, Bulletin of the American Meteorological Society, Vol.79, No.10, pp.2101-2114, 1998.
14. Martins,J., Artaxo,P., Liousse,C., Reid,J., Hobbs,P., Kaufman,Y., Effects of black carbon content, particle size, and mixing on light absorption by aerosols from biomass burning in Brazil, Journal of Geophysical Research, Vol.103, No.D4, pp.32,041-32,050, 1998.
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24. Sokolik,I., Winker,D.M., Bergametti,G., Gillette,D.A., Carmichael,G., Kaufman,Y.J., Gomes,L., Schuetz,L., Penner,J.E., Introduction to special section: outstanding problems in quantifying the radiative impacts of mineral dust, Journal of Geophysical Research, Vol.106, No.D16, pp.18,015-18,027, 2001.
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29. Colarco,P., Toon,O., Torres,O., Rasch,P., Determining the UV imaginary index of refraction of Saharan dust particles from Total Ozone Mapping Spectrometer data using a three-dimensional model of dust transport, Journal of Geophysical Research, Vol.107, No.D16, doi:10.1029/2001JD000903, 2002.
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31. Sato,M., Hansen,J., Koch,D., Lacis,A., Ruedy,R., Dubovik,O., Holben,B., Chin,M., Novakov,T., Global atmospheric black carbon inferred from AERONET, PNAS, Vol.100, No.11, pp.6319-6324, 2003.
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35. Schuster,G., Dubovik,O., Holben,B., Clothiaux,E., Inferring black carbon content and specific absorption from Aerosol Robotic Network (AERONET) aerosol retrievals, Journal of Geophysical Research, Vol.110, D10S17, 10.1029/2004JD004548, 2005.
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38. Jones,G., Jones,A., Roberts,D., Stott,P., Williams,K., Sensitivity of global-scale climate change attribution results to inclusion of fossil fuel black carbon aerosol, Geophysical Research Letters, Vol.32, L14701, doi:10.1029/2005GL023370, 2005.
39. Hakami,A., Henze,D., Seinfeld,J., Chai,T., Tang,Y., Carmichael,G., Sandu,A., Adjoint inverse modeling of black carbon during the Asian Pacific Regional Aerosol Characterization Experiment, Journal of Geophysical Research, Vol.110, D14301, doi:10.1029/2004JD005671, 2005.
40. Woodward,S., Roberts,D., Betts,R., A simulation of the effect of climate change-induced desertification on mineral dust aerosol, Geophys. Res. Lett., Vol.32, L18810, doi:10.1029/2005GL023482, 2005.
41. Novakov,T., Menon,S., Kirchstetter,T., Koch,D., Hansen,J., Aerosol organic carbon to black carbon ratios: analysis of published data and implications for climate forcing, Journal of Geophysical Research, Vol.110, D21205, doi:10.1029/2005JD005977, 2005. (arquivado em Organic x elemental carbon + some chemical analysis)
42. Pace,G., Meloni,D., di Sarra,A., Forest fire aerosol over the Mediterranean basin during summer 2003, Journal of Geophysical Research, Vol.110, D21202, doi:10.1029/2005JD005986, 2005.
43. Krotkov,N., Bhrtia,P., Slusser,J., Labow,G., Eck,T., Dubovik,O., Holben,B., Aerosol ultraviolet absorption experiment (2002 to 2004), part 2: absorption optical thickness, refractive index, and single scattering albedo, Optical Engineering, Vol.44, No.4, 041005, 2005.
44. Mitchell,R., O'Brien,D., Campbell,S., Characteristics and radiative impact of the aerosol generated by the Canberra firestorm of January 2003, Journal of Geophysical Research, Vol.110, D02204, doi:10.1029/2005JD006304, 2006.
45. García,O., Díaz,A., Expósito,F., Díaz,J., Gröbner,J., Fioletov,V., Cloudless aerosol forcing efficiency in the UV region from AERONET and WOUDC databases, Geophysical Research Letters, Vol.33, L23803, doi:10.1029/2006GL026794, 2006.
46. Pant,P., Hedge,P., Dumka,U., Sagar,R., Satheesh,S., Moorthy,K., Saha,A., Srivastava,M., Aerosol characteristics at a high-altitude location in central Himalayas: Optical properties and radiative forcing, Journal of Geophysical Research, Vol.111, D17206, doi:10.1029/2005JD006768, 2006.
47. Satheesh,S., Srinivasan,J., A method to estimate aerosol radiative forcing from spectral optical depths, Journal of the Atmospheric Sciences, Vol.63, pp.1082-1092, 2006.
48. Díaz,A., García,O., Díaz,J., Expósito,F., Utrillas,M., Martínez-Lozano,J., Alados-Arboledas,L., Olmo,F., Lorente,J., Cachorro,V., Horvath,H., Labajo,A., Sorribas,M., Vilaplana,J., Silva,A., Elias,T., Pujadas,M., Rodrigues,J., González,J., Aerosol radiative forcing efficiency in the UV region over southeastern Mediterranean: VELETA2002 campaign, Journal of Geophysical Research, Vol.112, D06213, doi:10.1029/2006JD007348, 2007.
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Impactors, filtration and collecting aerosols ...

1. , Filtration in , , pp.182-205.
2. Electrical Low Pressure Impactor
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22. Medida de la distribución de tamaños del aerosol.
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Scattering (R)

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10. Zhao,F., Determination of the complex index of refraction and size distribution of aerosols from polar nephelometer measurements, Appl. Opt., Vol.38, No.12, pp.2331-2336, 1999.
11. Volten,H., Jalava,J.-P., Lumme,K., Haan,J.F., Vassen,W., Hovenier,J.W., Laboratory measurements and T-matrix calculations of the scattering matrix of rutile particles in water, Appl. Opt., Vol.38, No.24, pp.5232-5240, 1999.

Arctic, Antarctic, mountain

1. Anderson, J., Buseck, P., Saucy, D., and Pacyna, J., Characterization of individual fine-fraction particles from the Arctic aerosol at SPITsbergen, May-June 1987, Atmospheric Environment, Vol.26A, No.9, pp.1747--1762, 1992. (arquivado em Electron Microscopy)
2. Virkkula,A., Hillamo,R., Kerminen,V.-M., Stohl,A., The influence of Kola Peninsula, continental European and marine sources on the number concentrations and scattering coefficients of the atmospheric aerosol in Finnish Lapland, Boreal Environment Research, Vol.2, pp.317-336, 1997. (www)
3. Fridlind,A., Jacobson,M., Kerminen,V.-M., Hillamo,R., Ricard,V., Jaffrezo,J.-L., Analysis of gas-aerosol partitioning in the Arctic: comparison of size-resolved equilibrium model results with field data, J. Geophys. Res., Vol.105, No.D15, pp.19,891-19,903, 2000.
4. Hillamo,R., Kerminem,V.-M., Aurela,M., Mäkelä, Modal structure of chemical mass size distribution in the high Arctic aerosol, J. Geophys. Res., Vol.106, No.D21, pp.27,555-27,571, 2001.
5. Barnard,J., Powell,D., A comparison between modeled and measured clear-sky radiative shortwave fluxes in Arctic environments, with special emphasis on diffuse radiation, Journal of Geophysical Research, Vol.107, No.D19,4383, doi:10.1029/2001JD001442, 2002.
6. Kasper-Giebl,A. Löflund, Tropospheric aerosol measurements at ALOMAR, 2002.
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8. ASTAR 2004: Arctic Study of Tropospheric Aerosols, Clouds and Radiation
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10. Sharma,S., Lavoué,D., Cachier,H., Barrie,L., Gong,S., Long term trends of the black carbon concentrations in the Canadian Arctic, J. Geophys. Res., Vol.109, D15203, doi:10.1029/2003JD004331, 2004.
11. Koch,D., Hansen,J., Distant origins of Arctic black carbon: A Goddard Institute fot Space Studies ModelE experiment, J. Geophys. Res., Vol.110, D04204, doi:10.1029/2004JD005296, 2005.
12. Ritter,C., Notholt,J., Fischer,J., Rathke,C., Direct thermal radiative forcing of tropospheric aerosol in the Arctic measured by groud based infrared spectrometry, Geophysical Research Letters, Vol.32, L23816, doi:10.1029/2005GL024331, 2005.
13. Leck,C., Bigg,E., Source and evolution of the marine aerosol - a new perspective, Geophysical Research Letters, Vol.32, L19803, doi:10.1029/2005GL023651, 2005.
14. Tunved,P., Nilsson,E., Hansson,H.-C., Ström,J., Kulmala,M., Aalto,P., Viisanen,Y., Aerosol characteristics of air masses in northern Europe: Influences of location, transport, sinks, and sources, J. Geophys. Res., Vol.110, D07201, doi:10.1029/2004JD005085, 2005.
15. Hicks,S., Isaksson,E., Assessing source areas of pollutants from studies of fly ash, charcoal, and pollen from Svalbard snow and ice, J. Geophys. Res., Vol.111, D02113, doi:10.1029/2005JD006167, 2006.
16. Sharma,S., Andrews,E., Barrie,L., Ogren,J., Lavoué,D., Variations and sources of the equivalent black carbon in the high Arctic revealed by long-term observations at Alert and Barrow: 1989-2003, Journal of Geophysical Research, Vol.111, D14208, doi:10.1029/2005JD006581, 2006.
17. Stohl,A., Characteristics of atmospheric transport into the Arctic troposphere, Journal of Geophysical Research, Vol.111, D11306, doi:10.1029/2005JD006888, 2006.
18. Aaltonen,V., Lihavainen,H., Kerminen,V.-M., Komppula,M., Hatakka,J., Eneroth,K., Kulmala,M., Viisanen,Y., Measurements of optical properties of atmospheric aerosols in Northern Finland, Atmos. Chem. Phys., Vol.6, pp.1155-1164, 2006.
19. Stohl,A., Andrews,E., Burkhart,J., Forster,C., Herber,A., Hoch,S., Kowal,D., Lunder,C., Mefford,T., Ogren,J., Sharma,S., Spichtinger,N., Stebel,K., Stone,R., Ström,J., Tørseth,K., Wehrli,C., Yttri,K., Pan-Arctic enhancements of light absorbing aerosol concentrations due to North American boreal forest fires during summer 2004, Journal of Geophysical Research, Vol.111, D22214, doi:10.1029/2006JD007216, 2006.
20. Anastasio,C., Robles,T., Light absorption by soluble chemical species in Arctic and Antarctic snow, Journal of Geophysical Research, Vol.112, D24304, doi:10.1029/2007JD008695, 2007.
21. Hagler,G., Bergin,M., Smith,E., Dibb,J., A summer time series of particulate carbon in the air and snow at Summit, Greenland, Journal of Geophysical Research, Vol.112, D21309, doi:10.1029/2007JD008993, 2007.
22. Tomasi,C., Vitale,V., Lupi,A., Di Carmine,C., Campanelli,M., Herber,A., Treffeisen,R., Stone,R., Andrews,E., Sharma,S., Radionov,V., von Hoyningen-Huene,W., Stebel,K., Hansen,G., Myhre,C., Wehrli,C., Aaltonen,V., Lihavainen,H., Virkkula,A., Hillamo,R., Ström,J., Toledano,C., Cachorro,V., Ortiz,P., de Frutos,A., Blindheim,S., Frioud,M., Gausa,M., Zielinski,T., Petelski,T., Yamanouchi,T., Aerosols in polar regions: A historical overview based on optical depth and in situ observations, Journal of Geophysical Research, Vol.112, D16205, doi:10.1029/2007JD008432, 2007 .
23. Law,K., Stohl,A., Arctic Air Pollution: Origins and Impacts, Science, Vol.315, No.5818, pp.1537-1540, 2007.
24. Eck,T., Holben,B., Reid,J., Sinyuk,A., Hyer,E., O'Neill,N., Shaw,G., Vande Castle,J., Chapin,F., Dubovik,O., Smirnov,A., Vermote,E., Schafer,J., Giles,D., Slutsker,I., Sorokine,M., Newcomb,W., Optical properties of boreal region biomass burning aerosols in central Alaska and seasonal variation of aerosol optical depth at an Arctic coastal site, Journal of Geophysical Research, Vol. 114, No.D11, D11201, 2009.
25. Fiebig,M., Lunder,C., Stohl,A., Tracing biomass burning aerosol from South America to Troll Research Station, Antarctica, Geophysical Research Letters, Vol. 36, No. 14, L14815, 2009.
26. Friedman,B., Herich,., Kammermann,L., Gross,D., Arneth,A., Holst,T., Cziczo,D., Subarctic atmospheric aerosol composition: 1. Ambient aerosol characterization, Journal of Geophysical Research, Vol.114, No. D13, D13203, 2009.
27. Herich,H., Kammermann,L., Friedman,B., Gross,D., Weingartner,E., Lohmann,U., Spichtinger,P., Gysel,M., Baltensperger,U., Cziczo,D., Subarctic atmospheric aerosol composition: 2. Hygroscopic growth properties, Journal of Geophysical Research, Vol.114, No. D13, D13204, 2009.
28. Forsström,S., Ström,J., Pedersen,C., Isaksson,E., Gerland,S., Elemental carbon distribution in Svalbard snow, Journal of Geophysical Research, Vol.114, D19112, 2009.
29. Saha,A., O'Neill,N., Eloranta,E., Stone,R., Eck,T., Zidane,S., Daou,D., Lulu,A., Lesins,G., Shiobara,M., McArthur,L., Pan-Arctic sunphotometry during the ARCTAS-A campaign of April 2008, Geophysical Research Letters, Vol.37, L05803, doi:10.1029/2009GL041375, 2010.
30. Asmi,A., Wiedensohler,A., Laj,P., Fjaeraa,A.-M., Sellegri,K., Birmili,W., Weingartner,E., Baltensperger,U., Zdimal,V., Zikova,N., Putaud,J.-P., Marinoni,A., Tunved,P., Hansson,H.-C., Fiebig,M., Kivekäs,N., Lihavainen,H., Asmi,E., Ulevicius,V., Aalto,P., Swietlicki,E., Kristensson,A., Mihalopoulos,N., Kalivitis,N., Kalapov,I., Kiss,G., de Leeuw,G., Henzing,B., Harrison,R., Beddows,D., O'Dowd,C., Jennings,S., Flentje,H., Weinhold,K., Meinhardt,F., Ries,L., Kulmala,M., Number size distributions and seasonality of submicron particles in Europe 2008-2009, Atmos. Chem. Phys., Vol.11, pp.5505-5538, 2011.
31. Virkkula,A., Backman,J., Aalto,P., Hulkkonen,M., Riuttanen,L., Nieminen,T., dal Maso,M., Sogacheva,L., de Leeuw,G., Kulmala,M., Seasonal cycle, size dependencies, and source analyses of aerosol optical properties at the SMEAR II measurement station in Hyytiälä, Finland, Atmos. Chem. Phys., Vol.11, pp.4445-4468, 2011. (www)

2004 (R)

1. Alados-Arboledas,L., Olmo,F., Alc´ntara,A., Lyamani,H., Lorente,J., Martínez-Lozano,A., Cachorro,V., Labajo,A., de la Morena,B., Díaz,A., Pujadas,M., Horvath,H., Silva,A., Pavese,G., VELETA 2002 field campaign a general overview, Opt. Pur. y Apl., Vol.37, No.3, pp3271-3276, 2004.
2. Alfaro,S.C., Lafon,S., Rajot,J.L., Formenti,P., Gaudichet,A., Maillé,M., Iron oxides and light absorption by pure desert dust: an experimental study, J. Geophys. Res., Vol.109, D08208, doi:10.1029/2003JD004374, 2004.
3. Junker,C., Sheahan,J., Jennings,S., O'Brien,P., Hinds,B., Martinez-Twary,E., Hansen,A., White,C., Garvey,D., Pinnick,R., Measurement and analysis of aerosol and black carbon in the southwestern Unites States and Panama and their dependence on air mass origin, J. Geophys. Res., Vol.109, D13201, doi:10.1029/2003JD004066, 2004.
4. Bond,T., Streets,D., Yarber,K., Nelson,S., Woo,J.-H., Klimont,Z., A technology-based global inventory of black and organic carbon emissions from combustion, J. Geophys. Res., Vol.109, D14203, doi:10.1029/2003JD003697, 2004.
5. Bergstrom,R., Pilewskie,P., Pommier,J., Rabbette,M., Russell,P., Schmid,B., Rademann,J., Higurashi,A., Nakajima,T., Quinn,P., Spectral absorption of solar radiation by aerosols during ACE-Asia, J. Geophys. Res., Vol.109, D19S15, doi:10.1029/2003JD004467, 2004.
6. Huebert,B., Bertram,T., Kline,J., Howell,S., Eatough,D., Blomquist,B., Measurements of organic and elemental carbon in Asian outflow during ACE-Asia from the NSF/NCAR C-130, J. Geophys. Res., Vol.109, D19S11, doi:10.1029/2004JD004700, 2004.
7. Schaap,M., Denier Van Der Gon,H., Dentener,F., Visschedijk,A., Van Loon,M., H. ten Brink, Putaud,J.-P., Guillaume,B., Liousse,C., Builtjes,P., Anthropogenic black carbon and fine aerosol distribution over Europe, J. Geophys. Res., Vol.109, D18207, doi:10.1029/2003JD004330, 2004.
8. Wind,L., Hofer,L., Nagy,A., Winkler,P., Vrtala,A., Szymanski,W., Light scattering from droplets with inclusions and the impact on optical measurement of aerosols, Journal of Aerosol Science, Vol.35, pp.1173-1188, 2004.
9. Kirchstetter,T., Novakov,T., Hobbs,P., Evidence that the spectral dependence of light absorption by aerosols is affected by organic carbon, J. Geophys. Res., Vol.109, D21208, doi:10.1029/2004JD004999, 2004.
10. Mishchenko,M., Liu,L., Travis,L., Lacis,A., Scattering and radiative properties of semi-external versus external mixtures of different aerosol types, Journal of Quantitative Spectroscopy & Radiative Transfere, Vol.88, pp.139-147, 2004.
11. Sumanth,E., Mallikarjuna,K., Stephen,J., Moole,M., Vinoj,V., Satheesh,S., Moorthy,K., Measurements of aerosol optical depths and black carbon over Bay of Bengal during post-monsoon season, Geophysical Research Letters, Vol.31, L16115, doi:10.1029/2004GL020681, 2004.

2005 (R)

1. Nozière,B., Esteve,W., Organic reactions increasing the absorption index of atmospheric sulfuric acid aerosols, Geophys. Res. Lett., Vol.32, L03812, doi:10.1029/2004GL021942, 2005.
2. Deepshikha,S., Satheesh,S., Srinivasan,J., Regional distribution of absorbing efficiency of dust aerosols over India and adjacent continebts inferred using satellite remote sensing, Geophys. Res. Lett., Vol.32, L03811, doi:10.1029/2004GL022091, 2005.
3. Kassianov,E., Barnard,J., Ackerman,T., Retrieval of aerosol microphysical properties using surface multifilter rotating shadowband radiometer (MFRSR) data: modeling and observations, Journal of Geophysical Research, Vol.110, D09201, doi:10.1029/2004JD005337, 2005.

2006 (R)

1. Estellés,V., Utrillas,M., Martínez-Lozano,J., Alcántara,A., Alados-Arboledas,L., Olmo,F., Lorente,J., de Cabo,X., Cachorro,V., Horvath,H., Labajo,A., Sorribas,M., Díaz,J., Díaz,A., Silva,A., Elías,T., Pujadas,M., Rodrigues,J., Cañada,J., García,Y., Intercomparison of spectroradiometers and Sun photometers for the determination of the aerosol optical depth during the VELETA-2002 field campaign, Vol.111, D17207, doi:10.1029/2005JD006047, 2006.
2. Müller,D., Tesche,M., Eichler,H., Engelmann,R., Althausen,D., Ansmann,A., Cheng,Y., Zhang,Y., Hu,M., Strong particle light absorption over the Pearl River Delta (south China) and Beijing (north China) determined from combined Raman lidar and Sun photometer observations, Geophysical Research Letters, Vol.33, L20811, doi:10.1029/2006GL027196, 2006.
3. Elias,T., Silva,A.M., Belo,N., Pereira,S., Formenti,P., Helas,G., Wagner,F., Aerosol extinction in a remote continental region of the Iberian Peninsula during summer, Journal of Geophysical Research, Vol.111, D14204, doi:10.1029/2005JD006610, 2006.
4. Stier,P., Seinfeld,J., Kinne,S., Feichter,S., Boucher,O., Impact of nonabsorbing anthropogenic aerosols on clear-sky atmospheric absorption, Journal of Geophysical Research, Vol.111, D18201, doi:10.1029/2006JD007147, 2006.
5. Schwarz,J., Gao,R., Fahey,D., Thomson,D., Watts,D., Wilson,J., Reeves,J., Darbeheshti,M., Baumgardner,D., Kok,G., Chung,S., Schulz,M., Hendricks,J., Lauer,A., Kärcher,B., Slowik,J., Rosenlof,K., Thompson,T., Langford,A., Loewenstein,M., Aikin,K., Single-particle measurements of midlatitude black carbon and light-scattering aerosols from the boundary layer to the lower stratosphere, Journal of Geophysical Research, Vol.111, D16207, doi:10.1029/2006JD007076, 2006.
6. Moorthy,K., Babu,S., Aerosol black carbon over Bay of Bengal observed from an island location, Port Blair: Temporal features and long-range transport, Journal of Geophysical Research, Vol.111, D17205, doi:10.1029/2005JD006855, 2006.
7. Cheng,Y., Eichler,H., Wiedensohler,A., Heintzenberg,J., Zhang,Y., Hu,M., Herrmann,H., Zeng,L., Liu,S., Gnauk,T., Brüggemann,E., He,L., Mixing state of elemental carbon and non.light-absorbing aerosol components derived from in situ particle optical properties at Xinken in Pearl River Delta of China, Journal of Geophysical Research, Vol.111, D20204, doi:10.1029/2005JD006929, 2006.
8. Wu,Y.-S., Fang,G.-C., Chen,J.C., Lin,C.-P., Huang,S.-H., Rau,J.-Y., Lin,J.-G., Ambient air particulate dry deposition, concentrations and metallic elements at Taichung Harbor near Taiwan Strait, Atmospheric Research, Vol.79, pp.52-66, 2006.
9. Yuan,H., Zhuang,G., Rahn,K., Zhang,X., Li,Y., Composition and mixing of individual particles in dust and nondust conditions of north China, spring 2002, Journal of Geophysical Research, Vol.111, D20208, doi:10.1029/2005JD006478, 2006.
10. Linke,C., Möhler,O., 'Veres,A., Mohácsi,Á., Bozóki,G., Szabó,G., Schnaiter,M., Optical properties and mineralogical composition of different Saharan mineral dust samples: a laboratory study, Atmos. Chem. Phys., Vol.6, pp.3315-3323, 2006.
11. Koven,C., Fung,I., Inferring dust composition from wavelength-dependent absorption in Aeronet Robotic Network (AERONET) data, Journal of Geophysical Research, Vol.111, D14205, doi:10.1029/2005JD006678, 2006.
12. Schmid,O., Artaxo,P., Arnott,W., Chand,D., Gatti,L., Frank,G., Hoffer,A., Schnaiter,M., Andreae,M., Spectral light absorption by ambient aerosols influenced by biomass burning in the Amazon Basin. I: Comparison and field calibration of absorption measurement techniques, Atmos. Chem. Phys., Vol.6, pp.3443-3462, 2006.
13. Bond,T., Bergstrom,R., Light absorption by carbonaceous particles: an investigative review, Aerosol Science & Technology, Vol.40, pp.27-67, 2006.
14. Bond,T., Habib,G., Bergstrom,R., Limitations in the enhancement of visible light absorption due to mixing state, Journal of Geophysical Research, Vol.111, D20211, doi:10.1029/2006JD007315, 2006.

2007 (R)

1. Li,Z., Xia,X., Cribb,M., Mi,W., Holben,B., Wang,P., Chen,H., Tsay,S.-C., Eck,T., Zhao,F., Dutton,E., Dickerson,R., Aerosol optical properties and their radiative effects in northern China, Journal of Geophysical Research, Vol.112, D22S01, doi:10.1029/2006JD007382, 2007.
2. Zhao,F., Li,Z., Estimation of aerosol single scattering albedo from solar direct spectral radiance and total broadband irradiances measured in China, Journal of Geophysical Research, Vol.112, D22S03, doi:10.1029/2006JD007384, 2007.
3. Zerefos,C., Gerogiannis,V., Balis,D., Zerefos,S., Kazantzidis,A., Atmospheric effects of volcanic eruptions as seen by famous artists and depicted in their paintings, Atmos. Chem. Phys., Vol.7, pp.4027-4042, 2007.
4. Pilewskie,P., Aerosols heat up, Nature, Vol.448, pp.541-542, 2007.
5. Ramanathan,V., Ramana,M., Roberts,G., Kim,D., Corrigan,C., Chung,C., Winker,D., Warming trends in Asia amplified by brown cloud solar absorption, Nature, Vol.448, pp.575-579, 2007.
6. Nakajima,T., Yoon,S.-C., Ramanathan,V., Shi,G.-Y., Takemura,T., Higurashi,A., Takamura,T., Aoki,K., Sohn,B.-J., Kim,S.-W., Tsurata,H., Sugimoto,N., Shimizu,A., Tanimoto,H., Sawa,Y., Lin,N.-H., Lee,C.-T., Goto,D., Schutgens,N., Overview of the Atmospheric Brown Cloud East Asian Regional Experiment 2005 and a study of the aerosol direct radiative forcing in east Asia, Journal of Geophysical Research, Vol.112, D24S91, doi:10.1029/2007JD009009, 2007.
7. Ramanathan,V., Li,F., Ramana,M., Praveen,P., Kim,D., Corrigan,C., Nguyen,H., Stone,E., Schauer,J., Carmichael,G., Adhikary,B., Yoon,S., Atmospheric brown clouds: Hemispherical and regional variations in long-range transport, absorption, and radiative forcing, Journal of Geophysical Research, Vol.112, D22S21, doi:10.1029/2006JD008124, 2007.
8. Hayasaka,T., Satake,S., Shimizu,A., Sugimoto,N., Matsui,I., Aoki,K., and Muraji,Y., Vertical distribution and optical properties of aerosols observed over Japan during the Atmospheric Brown Clouds - East Asia Regional Experiment 2005, Journal of Geophysical Research, Vol.112, D22S35, doi:10.1029/2006JD008086, 2007.
9. Stone,E., Lough,G., Schauer,J., Praveen,P., Corrigan,C., Ramanathan,V., Understanding the origin of black carbon in the atmospheric brown cloud over the Indian Ocean, Journal of Geophysical Research, Vol.112, D22S23, doi:10.1029/2006JD008118, 2007.
10. Mogili,P., Yang,K., Young,M., Kleiber,P., Grassian,V., Environmental aerosol chamber studies of extinction spectra of mineral dust aerosol components: Broadband IR-UV extinction spectra, Journal of Geophysical Research, Vol.112, D21204, doi:10.1029/2007JD008890, 2007.
11. Henson,B., An adsorption model of insoluble particle activation: Application to black carbon, Journal of Geophysical Research., Vol.112, D24S16, doi:10.1029/2007JD008549, 2007.
12. Magi,B., Fu,Q., Redemann,J., A methodology to retrieve self-consistent aerosol optical properties using common aircraft measurements, , Vol.112, D24S12, doi:10.1029/2006JD008312, 2007.
13. Tafuro,A., Kinne,S., De Tomasi,F., Perrone,M., Annual cycle of aerosol direct radiative effect over southeast Italy and sensitivity studies, Journal of Geophysical Research, Vol.112, D20202, doi:10.1029/2006JD008265, 2007.
14. Mukai,S., Sano,I., Nishimori,A., Sato,M., Okada,Y., Holben,B., A comparison of aerosol properties with air pollutants, Advances in Space Research, Vol.39, pp.32-35, 2007.
15. Kassianov,E., Flynn,C., Ackerman,T., Barnard,J., Aerosol single-scattering albedo and asymmetry parameter from MFRSR observations during the ARM Aerosol IOP 2003, Atmos.Chem.Phys., Vol.7, pp.3341-3351, 2007.
16. Barnard,J., Kassianov,E., Ackerman,T., Johnson,K., Zuberi,B., Molina,L., Molina,M., Estimation of a "radiatively correct" black carbon specific absorption during the Mexico City Metropolitan Area (MCMA) 2003 fielf campaign, Atmos.Chem.Phys., Vol7., pp.1645-1655, 2007.
17. Snyder,D., Schauer,J., An inter-comparison of two black carbon aerosol instruments and a semi-continuous elemental carbon instrument in the urban environment, Aerosol Science & Technology, Vol.41, pp.463-474, 2007.
18. Slowik,J., Cross,E., Han,J.-H., Davidovits,P., Onasch,T., Jayne,J., Williams,L., Canagaratna,M., Worsnop,D., Chakrabarty,R., Moosmüller, Arnott,W., Schwarz,J., Gao,R.-S., Fahey,D., Kok,G., Petzold,A., An inter-comparison of instruments measuring black carbon content of soot particles, Aerosol Science & Technology, Vol.41, pp.295-314, 2007.
19. Bergstrom,R., Pilewskie,P., Russell,P., Redemann,J., Bond,T., Quinn,P., Sierau,B., Spectral absorption properties of atmospheric aerosols, Atmos.Chem.Phys., Vol.7, pp.5937-5943, 2007.
20. Li,C., Marufu,L., Dickerson,R., Li,Z., Wen,T., Wang,Y., Wang,P., Chen,H., Stehr,J., In situ measurements of trace gases and aerosol optical properties at a rural site in northern China during East Asian Study of Tropospheric Aerosols: An International Regional Experiment 2005, Journal of Geophysical Research, Vol.112, D22S04, doi:10.1029/2006JD007592, 2007.
21. Chaudhry,Z., Martins,J., Li,Z., Tsay,S.-C., Chen,H., Wang,P., Wen,T., Li,C., Dickerson,R., In situ measurements of aerosol mass concentration and radiative properties in Xianghe, southeast of Beijing, Journal of Geophysical Research, Vol.112, D23S90, doi:10.1029/2007JD009055, 2007.

2008 (R)

1. Barnard,J., Volkamer,R., Kassianov,E., Estimation of the mass absorption cross section of the organic component of aerosols in the Mexico City Metropolitan Area (MCMA), Atmos.Chem.Phys.Discuss., Vol.8, pp.10189-10225, 2008.
2. Lyamani,H., Olmo,F., Alados-Arboledas,L., Light scattering and absorption properties of aerosol particles in the urban environment of Granada, Spain, Atmospheric Environment, Vol.42, pp.2630-2642, 2008.
3. Ichoku,C., Martins,J., Kaufman,Y., Wooster,M., Freeborn,P.,Hao,W., Baker,S., Ryan,C., Nordgren,B., Laboratory investigation of fire radiative energy and smoke aerosol emissions, Journal of Geophysical Research, Vol.113, D14S09, doi:10.1029/2007JD009659, 2008.
4. Curtis,D., Meland,B., Aycibin,M., Arnold,N., Grassian,V., Young,M., Kleiber,P., A laboratory investigation of light scattering from representative components of mineral dust aerosol at a wavelength of 550 nm, Journal of Geophysical Research, Vol.113, D08210, doi:10.1029/2007JD009387, 2008.
5. Schwarz,J., Spackman,J., Fahey,D., Gao,R., Lohmann,U., Stier,P., Watts,L., Thomson,D., Lack,D., Pfister,L., Mahoney,M., Baumgardner,D., Wilson,J., Reeves,J., Coatings and their enhancement of black carbon light absorption in the tropical atmosphere, Journal of Geophysical Research, Vol.113, D03203, doi:10.1029/2007JD009042, 2008.
6. Sahu,S., Beig,G., Sharma,C., Decadal growth of black carbon emissions in India, Geophysical Research Letters, Vol.35, L02807, doi:10.1029/2007GL032333, 2008.
7. Taylor,T., L'Ecuyer,T., Slusser,J., Stephens,G., Goering,C., An operational retrieval algorithm for determining aerosol optical properties in the ultraviolet, Journal of Geophysical Research, Vol.113, D03201, doi:10.1029/2007JD008661, 2008.
8. Matichuk,R. Colarco,P., Smith,J., Toon,O., Modeling the transport and optical properties of smoke plumes from South American biomass burning, Journal of Geophysical Research, Vol.113, D07208, doi:10.1029/2007JD009005, 2008.
9. Kim,D., Ramanathan,V., Solar radiation budget and radiative forcing due to aerosols and clouds, Journal of Geophysical Research, Vol.113, D02203, doi:10.1029/2007JD008434, 2008.
10. Cozic,J., Mertes,S., Verheggen,B., Cziczo,D., Gallavardin,S., Walter,S., Baltensperger,U., Weingartner,E., Black carbon enrichment in atmospheric ice particle residuals observed in lower tropospheric mixed phase clouds, Journal of Geophysical Research, Vol.113, D15209, doi:10.1029/2007JD009266, 2008.
11. Liu,Y., Daum,P., Relationship of refractive index to mass density and self-consistency of mixing rules for multicomponent mixtures like ambient aerosols, Journal of Aerosol Science, Vol.39, pp.974-986, 2008.
12. Myhre,G., Hoyle,C., Berglen,T., Johnson,B., Haywood,J., Modeling of the solar radiative impact of biomass burning aerosols during the Dust and Biomass-burning Experiment (DABEX), Journal of Geophysical Research, Vol.113, D00C16, doi:10.1029/2008JD009857, 2008.
13. Baumgardner,D., Subramanian,R., Twohy,C., Kok,G., Scavenging of black carbon by ice crystals over the northern Pacific, Geophysical Research Letters, Vol.35, L22815, doi:10.1029/2008GL035764, 2008.
14. Shiraiwa,M., Kondo,Y., Moteki,N., Takegawz,N., Sahu,L., Takami,A., Hatakeyama,S., Yonemura,S., Blake,D., Radiative impact of mixing state of black carbon aerosol in Asian outflow, Journal of Geophysical Research, Vol.113, D24210, doi:10.1029/2008JD010546, 2008.
15. Park,K., Heo,Y., Putra,H., Ultrafine metal concentration in atmospheric aerosols in urban Gwangju, Korea, Aerosol and Air Quality Research, Vol.8, No.4, pp.411-422, 2008.
16. Garland,R., Yang,H., Schmid,O., Rose,D., Nowak,A., Achtert,P., Wiedensohler,A., Takegawa,N., Kita,K., Miyazaki,Y., Kondo,Y., Hu,M., Shao,M., Zeng,L., Zhang,Y., Andreae,M., Pöschl,U., Aerosol optical properties in a rural environment near the mega-city Guangzhou, China: implications for regional air pollution, radiative forcing and remote sensing, Atmos. Chem. Phys., 8, 5161-5186, 2008.

2009 (R)

1. Christopher,S., Johnson,B., Jones,T., Haywood,J., Vertical and spatial distribution of dust from aircraft and satellite measurements during the GERBILS field campaign, Geophysical Research Letters, Vol.36, L06806, doi:10.1029/2008GL037033, 2009.
2. Moosmüller,H., Chakrabarty,R., Arnot,W., Aerosol light absorption and its measurement: A review, Journal of Quantitative Spectroscopy and Radiative Transfer, Vol.110, No.11, pp.844-878, 2009.
3. Kedia,S., Ramachandran,S., Variability in aerosol optical and physical characteristics over the Bay of Bengal and the Arabian Sea deduced from Ångström exponents, Journal of Geophysical Research, Vol.114, D14207, doi:10.1029/2008JD011950, 2009.
4. Lowenthal,D., Zielinska,B., Mason,B., Samy,S., Samburova,V., Collins,D., Spencer,C., Taylor,N., Allen,J., Kumar,N., Aerosol characterization studies at Great Smoky Mountains National Park, summer 2006, Journal of Geophysical Research, Vol. 114, No. D8, D08206, 2009.
5. Miyazaki,Y., Kondo,Y., Shiraiwa,M., Takegawa,N., Miyakawa,T., Han,S., Kita,K., Hu,M., Deng,Z., Zhao,Y., Sugimoto,N., Blake,D., Weber,R., Chemical characterization of water-soluble organic carbon aerosols at a rural site in the Pearl River Delta, China, in the summer of 2006, Journal of Geophysical Research, Vol. 114, No. D14, D14208, 2009.
6. Martins,J., Artaxo,P., Kaufman,Y., Castanho,A., Remer,L., Spectral absorption properties of aerosol particles from 350-2500nm, Geophysical Research Letters, Vol.36, L13810, doi:10.1029/2009GL037435, 2009.
7. Garland,R., Schmid,O., Nowak,A., Achtert,P., Wiedensohler,A., Gunthe,S., Takegawa,N., Kita,K., Kondo,Y., Hu,M., Shao,M., Zeng,L., Zhu,T., Andreae,M.,ö Pöschl,U., Aerosol optical properties observed during Campaign of Air Quality Research in Beijing 2006 (CAREBeijing-2006): Characteristic differences between the inflow and outflow of Beijing city air, Journal of Geophysical Research, VOL. 114, D00G04, doi:10.1029/2008JD010780, 2009.
8. Ram,K., Sarin,M., Absorption coefficient and site-specific mass absorption efficiency of elemental carbon in aerosols over urban, rural, and high-altitude sites in India, Environ. Sci. Technol., VOL. 43, pp.8233-8239, 2009. (email)

2010 (R)

1. Russell,P., Bergstrom,R., Shinozuka,Y., Clarke,A., DeCarlo,P., Jimenez,J., Livingston,J., Redemann,J., Dubovik,O., Strawa,A., Absorption Angstrom Exponent in AERONET and related data as an indicator of aerosol composition, Atmos. Chem. Phys., Vol.10, pp.1155-1169, 2010.

2011 (R)

1. Asmi,A., Wiedensohler,A., Laj,P., Fjaeraa,A.-M., Sellegri,K., Birmili,W., Weingartner,E., Baltensperger,U., Zdimal,V., Zikova,N., Putaud,J.-P., Marinoni,A., Tunved,P., Hansson,H.-C., Fiebig,M., Kivekäs,N., Lihavainen,H., Asmi,E., Ulevicius,V., Aalto,P., Swietlicki,E., Kristensson,A., Mihalopoulos,N., Kalivitis,N., Kalapov,I., Kiss,G., de Leeuw,G., Henzing,B., Harrison,R., Beddows,D., O'Dowd,C., Jennings,S., Flentje,H., Weinhold,K., Meinhardt,F., Ries,L., Kulmala,M., Number size distributions and seasonality of submicron particles in Europe 2008-2009, Atmos. Chem. Phys., Vol.11, pp.5505-5538, 2011. (www) (tb considerado em Artico)
2. Pandolfi,M., Cusack,M., Alastuey,A., Querol,X., Variability of aerosol optical properties in the Western Mediterranean Basin, Atmos. Chem. Phys., Vol.11, pp.14091-14125, 2011. (www)

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3. Conference on Visibility, Aerosols and Atmospheric Optics. September 11-15, 2000, Vienna.
   1. H.Moosmüller, W.P.Arnott, R.Varma, C.F.Rogers, Quality assurance for the measurement of light absorption by ambient aerosol particles: a closure approach, Reno, USA
   2. J.S.Pastuszka, K.Meliefste, D.Houthuijjs, K.T.Paw U., Reflection of the filters with collected airborne particles as a good proxy for the coefficient of light absorption by aerosol - results obtained in southern Poland, Sosnowiec, Poland
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15. Ackerman,T.P., Toon,O.B., Absorption of visible radiation in atmosphere containing mixtures of absorbing and nonabsorbing particles, Appl. Opt., 20, 3661-3667, 1981.
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22. Fischer,K., Measurements of absorption of visible radiation by aerosol particles, Contrib. Atmos. Phys., 43, 244-254, 1970.
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25. Horvath,H., Spectral extinction coefficients of background aerosols in Europe, North and South America: a comparison, Atmospheric Environment, 25A, 725-732, 1991.
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29. Bussemer,M., Heintzenberg,J, Laboratory calibration of a soot photometer for the specific light absorption of atmospheric aerosol samples, J. Aerosol Sci., 27, s693-s694, 1996.
30. Rosen H., Hansen,A.D.A., Novakov,T., An instrument for the Quasi-Real-Time measurement of the opticalbabsorption coefficient of ambient aerosols, Lawrence Berkeley Laboratory report, LBID-256, 1980.
31. Smith,J.D., Atkinson,D.B., A portable pulsed cavity ring-down transmissometer for measurement of the optical extinction of the atmospheric aerosol, Analyst, 126, 1216-1220, 2001.
32. Malm,W.C., Molenar,J.V., et al., Examining the relationship among atmospheric aerosols and light scattering and extinction in the Grand Canyon Area, J. Geophys. Res., 101, 19251-19265, 1996.
33. Malm,W.C., Sisler,J.F., et al., Spatial and seasonal trends in particle concentration and optical extinction in the United States, J. Geophys. Res., 99, 1347-1370, 1994.
34. Baker,M.B., Energy absorption by volatile atmospheric aerosol particles, Atmospheric Environment, 10, 241-248, 1976.
35. Chan,C.H., Effective absorption for thermal blooming due to aerosols, Appl. Phys. Lett., 26, 628-629, 1975.

More not classified (yet ...) (by courtesy of Prof.P.Arnott)

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2. Allen, J. O., A. F. Sarofim and K. A. Smith, A critical evaluation of two proposed atmospheric partitioning mechanisms, adsorption and absorption, using atmospheric data for polycyclic aromatic hydrocarbons, Journal of Aerosol Science, 28: S335-S336, 1997.
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