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A

Aas E. 1979. The calibration of a scatterance and fluorescence meter. Rep. Dept. Geophys., Univ. Oslo, 40, 56 pp.

Abeyrathne C. D., Halgamuge M, N., Farrell P. M., Skafidas E. 2013. An ab-initio computational method to determine dielectric properties of biological materials. Sci. Rep. Article 1796, 5 pp.

Abu-Rahmah A., Arnott W. P., Moosmüller H. 2006. Integrating nephelometer with a low truncation angle and an extended calibration scheme. Meas. Sci. Technol. 17, 1723-1732.

Aden, A. L. and Kerker, M. 1951. Scattering of electromagnetic waves from two concentric spheres. J. Appl. Phys. 22, 1242-1246.

Afsar M. N., Hasted J. B. 1978. Submillimetre wave measurements of optical constants of water at various temperatures. Infrared Phys. 18, 835-841.

Afsar M. N., Hasted J. B. 1977. Measurements of the optical constants of liquid H20 and D20 between 6 and 450 cm-1. J. Opt. Soc. Am. 67, 902-904.

Agrawal Y. C., Whitmire A., Mikkelsen O. A., Pottsmith H. C. 2008. Light scattering by random shaped particles and consequences on measuring suspended sediments by laser diffraction. J. Geophys. Res. C 113, C04023, 11 pp.

Agrawal Y. C. 2005. The optical volume scattering function: Temporal and vertical variability in the water column off the New Jersey coast. Limnol. Oceanogr. 50, 1787-1794.

Alam M., Massoud Y. 2006. A closed-form analytical model for single nanoshells. IEEE Trans. Nanotechnol. 5, 265-272.

Anderson T. L., Covert D. S., Marshall S. F., Laucks M. L., Carlson R. J., Waggoner A. P., Ogren J. A., Caldow R., Holm R. L., Quant F. R., Sem G. J., Wiedensohler A., Ahlquist N. A., Bates T. S. 1996. Performance characteristics of a high-sensitivity, three-wavelength, total scatter/backscatter nephelometer. J. Atmos. Ocean. Technol. 13, 967-986.

Armstrong F. A. J., Boalch G. T. 1961b. The ultra-violet absorption of sea water. Nature 192, 858-859.

Armstrong F. A. J., Boalch G. T. 1961a. The ultra-violet absorption of sea water. J. Mar. Biol. Assoc. UK 41, 591-597.

Arnold S., Neuman M., Pluchino A. B. 1984. Molecular spectroscopy of a single aerosol particle. Opt. Lett. 9, 4-6.

Asano S., Yamamoto G. 1975. Light scattering by a spheroidal particle. Appl. Opt. 14, 29-49.

Ashkin A., Dziedzic J. M. 1981. Observation of optical resonances of dielectric spheres by light scattering. Appl. Opt. 20, 1803-1814.

Aspnes D. E., Kinsbron E., Bacon D. D. 1980. Optical properties of Au: Sample effects. Phys. Rev. B 21, 3290-3299.

Austin R. W., Halikas G. 1976. The index of refraction of sea water. SIO Report 76-1, January 1976, Scripps Institution of Oceanography, San Diego, California, USA, 121 pp.

 
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B

Balkanov V., Belolaptikov I., Bezrukov L., Chensky A., Budnev N., Danilchenko I., Dzhilkibaev Z.-A., Domogatsky G., Doroshenko A., Fialkovsky S., Gaponenko O., Garus A., Gress T., Karle A., Klabukov A., Klimov A., Klimushin S., Koshechkin A., Kulepov V., Kuzmichev L., Lubsandorzhiev B., Lovzov S., Mikolajski T., Milenin M., Mirgazov R., Moroz A., Moseiko N., Nikiforov S., Osipova E., Pandel D., Panfilov A., Parfenov Y., Pavlov A., Petukhov D., Pokhil P., Pokolev P., Popova E., M., V. Rubzov, I. Sokalski, C. Spiering, O. Streicher, B. Tarashansky, T. Thon, M. Rozanov, Wischnewski R., Yashin I. 1999. In situ measurements of optical parameters in Lake Baikal with the help of a neutrino telescope. Appl. Opt. 38, 6818-6825.

Barkey B., Paulson S. E., Chung A. 2007. Genetic algorithm inversion of dual polarization polar nephelometer data to determine aerosol refractive index. Aerosol. Sci. Technol. 41, 751-760.

Barkey B., Liou K. N. 2001. Polar nephelometer for light-scattering measurements of ice crystals. Opt. Lett. 26, 232-234.

Bauer D., Morel A. 1967. A study of the scattering function of seawater at small angles. (in French: Etude aux petit angles de l'indicatrice de diffusion de la lumiere par les eaux de mer). Ann. Geophys. 23, 109-123.

Bauer D., Ivanoff A. 1965. On the measurements of the light scattering coefficient of seawater at angles between 14 and 1° 30' (in French: Au sujet de la mesure du coefficient de diffusion de la lumiere par les eaux de mer pour des angles compris entre 14 et 1 degres 30'). Estr. C. R. Acad. Sc. Paris 260, 631-634.

Bashkatov A. N., Genina E. A. 2002. Water refractive index in dependence on temperature and wavelength: a simple approximation. In: Saratov Fall Meeting 2002: Optical Technologies in Biophysics and Medicine IV. Tuchin V. V. (ed.) Proc. SPIE 5068, pp. 393-395.

Belzile C., Vincent W. F., Kumagai M. 2002. Contribution of absorption and scattering to the attenuation of UV and photosynthetically available radiation in Lake Biwa. Limnol. Oceanogr. 47, 95-107.

Bell B. W., Bickel W. S. 1981. Single fiber light scattering matrix: an experimental determination. Appl. Opt. 20, 3874-3879.

Bertie J. E., Lan Z. D. 1996. Infrared Intensities of Liquids XX: The intensity of the OH stretching band of liquid water revisited, and the best current values of the optical constants of H2O(l) at 25°c;C between 15,000 and 1 cm-1. App. Spectrosc. 50, 1047-1057. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Bhandari R. 1986. Tiny core or thin layer as a perturbation in scattering by a single-layered sphere. J. Opt. Soc. Am. A 3, 319-328.

Bhandari R. 1985. Scattering coefficients for a multi-layered sphere. Appl. Opt. 24, 1960-1964.

Bialkowski S. E. 1996. Photothermal spectroscopy methods for chemical analysis. In: Chemical Analysis Vol. 134, Wiley, 584 pp.

Bodhaine B. A., Ahlquist N. C., Schnell R. C. 1991. Three-wavelength nephelometer suitable for aircraft measurement of background aerosol scattering coefficient. Atmos. Environm. A 25, 2267-2276.

Bohren C. F., Huffman D. 1983. Absorption and scattering of light by small particles. Wiley, New York, 530 pp.

Boivin L. P., Davidson W. F., Storey R. S., Sinclair D., Earle E. D. 1986. Determination of the attenuation coefficients of visible and ultraviolet radiation in heavy water. Appl. Opt. 25, 877-882. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Bolt R. A., de Mul F. F. M. 2002b. Erratum: Goniometric instrument for light scattering measurement of biological tissues and phantoms. Rev. Sci. Instrum. 73, 3133-3133. [original paper]

Bolt R. A., de Mul F. F. M. 2002a. Goniometric instrument for light scattering measurement of biological tissues and phantoms. Rev. Sci. Instrum. 73, 2211-2213. [erratum]

Bond T. C., Bergstrom R. 2006. Light absorption by carbonaceous particles: An investigative review. Aerosol. Sci. Technol. 40, 27-67.

Borghese F., Denti P., Saija R., Sindoni O. I. 1992. Optical properties of spheres containing a spherical eccentric inclusion. J. Opt. Soc. Am. A 9, 1327-1335.

Born M., Wolf E. 1999. Principles of optics. Pergamon Press, Oxford, 7th ed., 808 pp.

Bowen P. 2002. Particle size distribution measurement from millimeters to nanometers and from rods to platelets. J. Dispersion Sci. Technol. 23, 631-662.

Bradley D. J., Pitzer K. S. 1979. Thermodynamics of electrolytes. Dielectric properties of water and Debye-Hückel parameters to 350 °C and 1 kbar. J. Phys. Chem. 83, 1599-1603.

Braslavsky S. E. 2007. Glossary of terms used in photochemistry (IUPAC recommendations 2006). Pure Appl. Chem. 79, 293-465.

Braun C. L., Smirnov S. N. 1993. Why is water blue? J. Chem. Edu. 70, 612-613.

Brendel R., Bormann D. 1992. An infrared dielectric function model for amorphous solids. J. Appl. Phys. 71, 1-6.

Bricaud A., Babin M., Morel A., Claustre H. 1995. Variability in the chlorophyll-specific absorption coefficients of natural phytoplankton: Analysis and parametrization. J. Geophys. Res. C 100, 13321-13332.

Brogioli D., Vailati A., Giglio M. 2003. A schlieren method for ultra-low-angle light scattering measurements. Europhys. Lett. 63, 220-225.

Brogioli D., Vailati A., Giglio M. 2002. Heterodyne near-field scattering. Appl. Phys. Let. 81, 4109-4111.

Buiteveld H., Hakvoort J. H., Donze M. 1994. The optical properties of pure water. In: Ocean Optics XII, Jaffe J. J. (ed.) Proc. SPIE 2258, 174-183. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Bukata R. P., Jerome J. H., Kondratyev K. Ya., Pozdnyakov D. V. 1995. Optical properties and remote sensing of inland and coastal waters. CRC Press, Boca Raton, Florida, USA, 384 pp.

Bukata R. P., Jerome J. H., Bruton J. E., Jain S. C. 1979. Determination of inherent optical properties of Lake Ontario coastal waters. Appl. Opt., 18, 3926-3932.

Bunkin N. F., Suyazov N. V., Shkirin A. V., Ignatev P. S., Indukaev K. V. 2009b. Determination of the microstructure of gas bubbles in highly purified water by measuring the elements of the laser radiation scattering matrix. Quant. Electron. 39, 367-381.

Burnett J. H., Kaplan S. G. 2004. Measurement of the refractive index and thermo-optic coefficient of water near 193 nm. J. Microlithogr. Microfab. Microsyst. 3, 68-72.

 
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C

Castagner J.-L., Bigio I. J. 2007. Particle sizing with a fast polar nephelometer. Appl. Opt. 46, 527-532.

Castagner J.-L., Bigio I. J. 2006. Polar nephelometer based on a rotational confocal imaging setup. Appl. Opt. 45, 2232-2239.

Centeno V. M. 1941. The refractive index of liquid water in the near infrared spectrum. J. Opt. Soc. Am. 31, 244-247.

Chang Hyuksang, Lin W. Y., Biswas P. 1995. An inversion technique to determine the aerosol size distribution in multicomponent systems from in situ light scattering measurements. Aerosol. Sci. Technol. 22, 24-32.

Chang Hyuksang, Biswas P. 1992. In situ light scattering dissymmetry measurements of the evolution of the aerosol size distribution in flames. J. Colloid Interface Sci. 153, 157-166.

Charlson R. J. 1993. An annotated bibliography for the integrating nephelometer. TSI, Shoreview, Minnesota, USA, Application Paper #2, 20 pp.

Cho C. H., Urquidi J., Gellene G. I. 2001b. Response to "Comment on `Mixture model description of the T-, P dependence of the refractive index of water'" [J. Chem. Phys. 115, 7795 (2001)]. J. Chem. Phys. 115, 7796-7797. [see also comment and original paper]

Cho C. H., Urquidi J., Gellene G. I., Robinson G. W. 2001a. Mixture model description of the T-, P dependence of the refractive index of water. J. Chem. Phys. 114, 3157-3162. [see also comment and response]

Choi M. K. 2001. Numerical calculation of light scattering from a layered sphere by the boundary-element method. J. Opt. Soc. Am. A 18, 577-583.

Chýlek P., Srivastava V., Pinnick R. G., Wang R. T. 1988. Scattering of electromagnetic waves by composite spherical particles: experiment and effective medium approximations. Appl. Opt. 27, 2396-2404.

Clarke G. L., James H. R. 1939. Laboratory analysis of the selective absorption of light by sea water. J. Opt. Soc. Am. 29, 43-55. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Collins J. R. 1939. A new infra-red absorption band of liquid water at 2.52μ. Phys. Rev. 55, 470-472.

Collins J. R. 1937. The near infrared absorption band of liquid water at 1.79μ. Phys. Rev. 52, 88-90.

Collins J. R. 1925. Change in the infra-red absorption spectrum of water with temperature. Phys. Rev. 26, 771-779.

Collins J. R. 1922. The effect of certain dissolved substances on the infra-red absorption of water. Phys. Rev. 20, 486-498. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Constantinides G. N., Gintides D., Kattis S. E., Kiriaki K., Paraskeva C. A., Payatakes A. C., Polyzos D., Tsinopoulos S. V., Yannopoulos S. N. 1998. Computation of light scattering by axisymmetric nonspherical particles and comparison with experimental results. Appl. Opt. 37, 7310-7319.

Crosby P., Koerber B. W. 1963. Scattering of light in the lower atmosphere. J. Opt. Soc. Am. 53, 358-361.

Cruz R. A., Marcano A., Jacinto C., Catunda T. 2009. Ultrasensitive thermal lens spectroscopy of water. Opt. Lett. 34, 1882-1884. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Curcio J. A., Petty C. C. 1951. Near infrared absorption spectrum of liquid water. J. Opt. Soc. Am. 41, 302-304.

Curtis D. B., Meland B., Aycibin M., Arnold N. P., Grassian V. H., Young M. A., Kleiber P. D. 2008. A laboratory investigation of light scattering from representative components of mineral dust aerosol at a wavelength of 550 nm. J. Geophys. Res. D 113, D08210, 15 pp.

Curtis D. B., Aycibin M., Young M. A., Grassian V. H., Kleiber P. D. 2007. Simultaneous measurement of light-scattering properties and particle size distribution for aerosols: Application to ammonium sulfate and quartz aerosol particles. Atmos. Environm. 41, 4748-4758.

Czumaj Z. 1990. Absorption coefficient and refractive index measurements of water in the millimetre spectral range. Molecular Physics 69, 787-790

 
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D

Daimon M., Masumura A. 2007. Measurement of the refractive index of distilled water from the near-infrared region to the ultraviolet region. Appl. Opt. 46, 3811-3820.

Dalzell W. H., Sarofim A. F. 1969. Optical constants of soot and their application to heat flux calculations. J. Heat Transfer 91, 100-104.

Daugeron D., Renard J.-B., Personne P., Brun G., André J.-M. 2007. Laboratory polarization nephelometer for measurements of optical properties of aerosols. Meas. Sci. Technol. 18, 632-638.

Dawson L. H., Hulburt E. O. 1934. The absorption of ultraviolet and visible light by water. J. Opt. Soc. Am. 24, 175-177. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Deibler L. L., Smith M. H. 2001. Measurement of the complex refractive index of isotropic materials with Mueller matrix polarimetry. Appl. Opt. 40, 3659-3667.

de Paula M. H., Lemos G. M., do Amaral M. S., Nunes J. R., Lourenço A., de Carvalho A. A., Kitano C., da Silva J. G., Sakamoto W. K., Siqueira O. S., Mello G. A. B., Pinto J. O. P., Galotto L. Jr., Peres M. T. L. P. 2009. The photothermal transparent transducer method applied to the spectroscopy of liquids. Sens. Actuat. B 136, 287-289.

Djurišić A. B., Stanić B. V. 1999. Modeling the temperature dependence of the index of refraction of liquid water in the visible and the near-ultraviolet ranges by a genetic algorithm. Appl. Opt. 38, 11-17.

Djurišić A. B., Stanić B. V. 1998. Modeling the wavelength dependence of the index of refraction of water in the range 200 nm to 200 μm. Appl. Opt. 37, 2696-2698.

Dobbins H. M., Peck E. R. 1973. Change of refractive index of water as a function of temperature. J. Opt. Soc. Am. 63, 318-320.

Dolgos G., Martins J. V., Remer L. A., Correia A. L., Tabacniks M., Lima A. R. 2010. Characterization of aerosol scattering and spectral absorption by unique methods: a polar/imaging nephelometer and spectral reflectance measurements of aerosol samples collected on filters. In: Atmospheric and Oceanic Propagation of Electromagnetic Waves IV, Korotkova O. (ed.), Proc. SPIE 7588, 75880E-12, 12 pp.

Dorsey N. E. 1940. Properties of ordinary water-substance in all its phases: water-vapor, water and all the ices. Reinhold, New York, 673 pp.

Downing H. D., Williams D. 1975. Optical constants of water in the infrared. J. Geophys. Res. 80, 1656-1661.

Draegert D. A., Stone N. W. B., Curnutte B., Williams D. 1966. Far-infrared spectrum of liquid water. J. Opt. Soc. Am. 56, 64-69.

Dueweke P. W., Bolstad J., Leonard D. A., Sweeney H. E., Boyer P. A., Winkler E. M. 1997. Instrument for underwater high-angular resolution volume scattering function measurements. In: Ocean Optics XIII, Steven G. Ackleson (ed.). Proc. SPIE 2963, 658-663.

Dunn A., Smithpeter C., Welch A. J., Richards-Kortum R. 1997. Finite-difference time-domain simulation of light scattering from single cells. Journal of Biomedical Optics 2, 262-266.

Duysens L. N. M. 1956. The flattening of the absorption spectrum of suspensions, as compared to that of solutions. Biochim. Biophys. Acta 19, 1-12.

 
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E

Egan W. G. 1982. Volumetric scattering and absorption by aerosols: parametric sensitivity in Mie modeling and comparison to observations. Appl. Opt. 21, 1445-1453.

Eisenberg H. 1965. Equation for the refractive index of water. J. Chem. Phys. 43, 3887-3892.

Eliçabe G. E., Schroeder W. F., Frontini G. L., Pettarin V. 2007. Particle systems characterization using a flat cell static light scattering apparatus. Part. Part. Syst. Charact. 24, 163-172.

Eliçabe G. E., Garcia-Rubio L. H. 1989. Latex particle size distribution from turbidimetry using inversion techniques. J. Colloid Interface Sci. 129, 192-200.

Ellison W., Balana A., Delbos G., Lamkaouchi K., Eymard L., Guillou C., Prigent C. 1998. New permittivity measurements of seawater. Radio Sci. 33, 639-648.

Ensor D. S., Waggoner A. P. 1970. Angular truncation error in the integrating nephelometer. Atmos. Environm. 4, 481-487.

Estes L. E., Fain G., Harris J. D. II 1997. A new instrument for optical forward scattering phase function surveys. In: Proc. Oceans 97 Conf. Oct. 6-9, 1997, MTS/IEEE, 3 pp.

 
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F

Fenn R. W., Oser H. 1965. Scattering properties of concentric soot-water spheres for visible and infrared light. Appl. Opt. 4, 1504-1509.

Fikioris J. G., Uzunoglu N. K. 1979. Scattering from an eccentrically stratified dielectric sphere. J. Opt. Soc. Am. 69, 1359-1366.

Finlay J. C., Foster T. H. 2004. Effect of pigment packaging on diffuse reflectance spectroscopy of samples containing red blood cells. Opt. Lett. 29, 965-967.

Fisher J., Fu L. 1993. Photodiode nonlinearity measurements with an intensity stablized laser as a radiation source. Appl. Opt. 32, 4187-4190.

Floriano B. W., Nascimento C. M. A. 2004. Dielectric constant and density of water as a function of pressure at constant temperature. Braz. J. Phys. 34, 38-41.

Forand J. L., Fournier G. R., Bonnier D., Pelletier G., Pace P. 1993. NEARSCAT: A full spectrum narrow forward angle transmissometer-nephelometer. In: IEEE Oceans '93 Proceedings III, IEEE, New York, NY, USA, pp. 165-170.

Fox J. J., Martin A. E. 1940. Investigations of infra-red spectra (2.5-7.5 μ) absorption of water. Proc. Roy. Soc. A 174, 234-261.

Fox M. 2010. Optical properties of solids. Oxford University Press., 396 pp.

Friedman D. 1969. Infrared characteristics of ocean water (1.5-15 μm). Appl. Opt. 8, 2073-2078.

Fry E. S. 2000b. Reply to criticisms of the Pope and Fry paper on pure water absorption made in a comment by Quickenden et al. Appl. Opt. 39, 5843-5846.

Fry E. S. 2000a. Visible and near-ultraviolet absorption spectrum of liquid water: comment. Appl. Opt. 39 39, 2743-2744.

Fry E. S., Kattawar G. W., Pope R. M. 1992. Integrating cavity absorption meter. Appl. Opt. 31, 2055-2065.

Fry E. S. 1974. Absolute calibration of a scatterance meter. In: Suspended solids in water. R. J. Gibbs (ed.). Plenum Press, New York, p. 101-109.

Fu Kun, Sun J., Lin A. W. H., Wang H., Halas N. J., Drezek R. A. 2007. Polarized angular dependent light scattering properties of bare and PEGylated gold nanoshells. Curr. Nanosci. 3, 167-170.

Fuller K. A. 1995. Scattering and absorption cross sections of compounded spheres. III. Spheres containing arbitrarily located spherical inhomogeneities. J. Opt. Soc. Am. A 12, 893-904.

Fuller K. A. 1994. Morphology-dependent resonances in eccentrically stratified spheres. Opt. Lett. 19, 1272-1274.

Fuller K. A. 1993. Scattering of light by coated spheres. Opt. Lett. 18, 257-259.

 
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G

Gabler R., Hegde R., Hughes D. 1983. Degradation of high purity water on storage. J. Liquid Chromatogr. 6, 2565-2570.

Garcia P. E., Dieguez M. C., Queimaliños C. 2015. Landscape integration of North Patagonian mountain lakes: a first approach using characterization of dissolved organic matter. Lakes & Reservoirs: Research & Management 20, 19-32.

Garland J. A., Rae J. B. 1970. An integrating nephelometer for atmospheric studies and visibility warning devices. J. Phys. E: Sci. Instrum. 3, 275-280.

Giguère P. A., Harvey K. B. 1956. On the infrared absorption of water in condensed states. Can. J. Chem. 34, 798-808.

Gogoi A., Buragohain A. K., Choudhury A., Ahmed G. A. 2009b. Laboratory measurements of light scattering by tropical fresh water diatoms. J. Quantit. Spectrosc. Radiative Transfer 110, 1566-1578.

Gogoi A., Borthakur L. J., Choudhury A., Stanciu G. A., Ahmed G. A. 2009a. Detector array incorporated optical scattering instrument for nephelometric measurements on small particles. Meas. Sci. Technol. 20, 095901, 10 pp.

Grasso V., Neri F., Fucile E. 1997. Particle sizing with a simple differential light scattering photometer: homogeneous spherical particles. Appl. Opt. 36, 2452-2458.

Grasso V., Neri F., Fucile E. 1995. Simple angle resolved light scattering photometer using a photodiode array. In: Air Pollution and Visibility Measurements. Fabian P., Klein V., Tacke M., Weber K., Werner C. (eds.) Proc. SPIE 2506, 763-772.

Grundinkina N. P. 1956. Absorption of ultraviolet radiation by water. Opt. Spektrosk. 1, 658-662.

Gualtieri D. M. 1987. Precision of lock-in amplifiers as a function of signal-to-noise ratio. Rev. Sci. Instrum. 58, 299-300.

Gucker F. T., Tuma J., Lin H.-M., Huang Ch.-M., Ems S. C., Marshall T. R. 1973. Rapid measurement of light scattering diagrams from single particle in an aerosol stream and determination of latex particle size. J. Aerosol Sci. 4, 389-404.

 
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H

Hakvoort J. H. M., Beeker A. E. R., Krijgsman J. 1994. Instrument to measure in situ visible light absorption in natural waters. In: Ocean Optics XII. Jaffe J. S. (ed.) Proc. SPIE 2258, 77-88.

Hale G. M., Querry M. R. 1973. Optical constants of water in the 200-nm to 200-μm wavelength region. Appl. Opt. 12, 555-563. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Hale G. M., Holland W. F., Querry M. R. 1973. Kramers-Kronig analysis of relative reflectance spectra measured at an oblique angle. Appl. Opt. 12, 48-51.

Han Guoxia, Han Y., Liu J., Zhang Y. 2008. Scattering of an eccentric sphere arbitrarily located in a shaped beam. J. Opt. Soc. Am. B 25, 2064-2072.

Hansen M. Z., Evans W. H. 1980. Polar nephelometer for atmospheric particulate studies. Appl. Opt. 19, 3389-3395.

Harvey A. H., Kaplan S. G., Burnett J. H. 2005. Effect of dissolved air on the density and refractive index of water. Int. J. Thermophys. 26, 1495-1514.

Harvey A. H. 2001. Comment on "Mixture model description of the T-, P dependence of the refractive index of water" [J. Chem. Phys. 114, 3157 (2001)]. J. Chem. Phys. 115, 7795-7795. [see also original paper and response]

Harvey A. H., Gallagher J. S., Sengers J. M. H. L. 1998. Revised formulation for the refractive index of water and steam as a function of wavelength, temperature and density. J. Phys. Chem. Ref. Data. 27, 761-774.

Hass M., Davisson J. W. 1977. Absorption coefficient of pure water at 488 and 541.5 nm by adiabatic laser calorimetry. J. Opt. Soc. Am. 67, 622-624.

Hass M., Davisson J. W., Rosenstock H. B., Babiskin J. 1975. Measurement of very low absorption coefficients by laser calorimetry. Appl. Opt. 14, 1128-1130.

Hawkes J. B., Astheimer R. W. 1949. Thermal coefficient of the refractive index of water. Science 110, 717-717.

Hawkes J. B., Astheimer R. W. 1948. The temperature coefficient of the refractive index of water. J. Opt. Soc. Am. 38, 804-806.

Hayashi Hisashi, Hiraoka Nozomu 2015. Accurate measurements of dielectric and optical functions of liquid water and liquid benzene in the VUV region (1-100 eV) using small-angle inelastic x-ray scattering. J. Phys. Chem. B 119, 5609-5623. [see also Absorption coefficient of water, ordinary (H2O), data files, data file]

Hayashi Hisashi, Watanabe N., Udagawa Y., Kao C.-C. 2000. The complete optical spectrum of liquid water measured by inelastic x-ray scattering. P. N. A. S. 97, 6264-6266.

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