000 06125nam a2200721 i 4500
001 9780750351577
003 IOP
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006 m eo d
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008 230109s2022 enka fob 000 0 eng d
020 _a9780750351577
_qebook
020 _a9780750351560
_qmobi
020 _z9780750351553
_qprint
020 _z9780750351584
_qmyPrint
024 7 _a10.1088/978-0-7503-5157-7
_2doi
035 _a(CaBNVSL)thg00083552
035 _a(OCoLC)1358414036
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aQC427.4
_b.S675 2022eb
072 7 _aPHJ
_2bicssc
072 7 _aSCI053000
_2bisacsh
082 0 4 _a535/.430150151
_223
100 1 _aSorensen, Christopher M.,
_eauthor.
_971260
245 1 0 _aLight scattering and absorption by particles :
_bthe Q-space approach /
_cChristopher M. Sorensen.
264 1 _aBristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
_bIOP Publishing,
_c[2022]
300 _a1 online resource (various pagings) :
_billustrations (some color).
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
490 1 _a[IOP release $release]
490 1 _aIOP ebooks. [2022 collection]
500 _a"Version: 20221201"--Title page verso.
504 _aIncludes bibliographical references.
505 0 _a1. Waves -- 1.1. Wave concepts -- 1.2. Energy transport -- 1.3. Complex notation -- 1.4. Fourier analysis -- 1.5. Diffraction -- 1.6. Foundations of scattering
505 8 _a2. Introduction to scattering and absorption -- 2.1. The total cross section -- 2.2. Angles and solid angles -- 2.3. The differential scattering cross section -- 2.4. Extinction, albedo and the efficiencies -- 2.5. Attenuation by an ensemble of particles -- 2.6. Multiple scattering
505 8 _a3. Polarization -- 3.1. Polarized light -- 3.2. Polarization by an oscillating electric dipole -- 3.3. The Stokes vector and the Mueller matrix -- 3.4. The scattering matrix -- 3.5. Polarization upon scattering -- 3.6. Microphysical description for the scattered light polarization for spheres
505 8 _a4. The structure factor -- 4.1. A system of scatterers -- 4.2. The scattering wave vector -- 4.3. The structure factor -- 4.4. The structure factor as a Fourier transform squared of the density distribution function -- 4.5. The structure factor as a Fourier transform of the density autocorrelation function -- 4.6. The density autocorrelation function -- 4.7. And another form for the structure factor -- 4.8. The Guinier regime -- 4.9. The structure factor of the sphere -- 4.10. The structure factor as diffraction : generalization to arbitrary dimension
505 8 _a5. The scaling approach to the structure factor -- 5.1. The scaling approach concepts -- 5.2. The scaling approach rules -- 5.3. The scaling approach applied to various shapes -- 5.4. The scaling approach for single particles -- 5.5. The scaling approach for ensembles of particles -- 5.6. Connections to other formulations -- 5.7. Assessment
505 8 _a6. Rayleigh scattering -- 6.1. Dimensional analysis -- 6.2. The Rayleigh differential scattering cross section for a sphere : electromagnetic theory -- 6.3. The total Rayleigh cross section -- 6.4. Consequences of Rayleigh scattering -- 6.5. Rayleigh absorption -- 6.6. Rayleigh extinction -- 6.7. Rayleigh albedo -- 6.8. The Rayleigh ratio -- 6.9. Limits to the Rayleigh regime -- 6.10. Epilogue
505 8 _a7. Light scattering and absorption by spherical particles -- 7.1. The differential scattering cross section -- 7.2. The spherical particle absorption cross section -- 7.3. Effects of absorption on scattering -- 7.4. Efficiencies -- 7.5. The single scattering albedo
505 8 _a8. Q-space analysis of light scattering by spherical particles -- 8.1. Motivation for Q-space analysis -- 8.2. Q-space analysis of scattering by an arbitrary sphere -- 8.3. The partial scattering cross section -- 8.4. The extinction paradox
505 8 _a9. Light scattering and absorption by fractal aggregates -- 9.1. Fractals -- 9.2. Fractal aggregate structure -- 9.3. Fractal aggregate structure factor -- 9.4. Light scattering and absorption by fractal aggregates -- 9.5. Superaggregates
505 8 _a10. Light scattering and absorption by particles of any shape -- 10.1. Experimental data -- 10.2. The general Rayleigh method for a particle of arbitrary shape -- 10.3. Theoretical calculations of scattering by various shapes -- 10.4. Summary and conclusions
505 8 _aAppendix A. The Dirac delta function -- Appendix B. Aggregation -- Appendix C. A Theory for DLCA fractal aggregate morphology -- Appendix D. The radius of gyration.
520 3 _aThis book provides a thorough overview of how particles of any size or shape scatter and absorb light.
521 _aResearchers in physics and engineering in optics, electromagnetics, remote sensing, atmospheric physics and monitoring, astrophysics, and biomedicine.
530 _aAlso available in print.
538 _aMode of access: World Wide Web.
538 _aSystem requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
545 _aChristopher Sorensen was born in Omaha, Nebraska. He earned a Bachelor of Science in physics from the University of Nebraska-Lincoln in 1969. He was drafted and served in Vietnam in military intelligence. He earned his PhD in physics in 1977 from the University of Colorado.
588 0 _aTitle from PDF title page (viewed on January 9, 2023).
650 0 _aLight
_xScattering
_xMathematical models.
_971261
650 0 _aHewitt-Nachbin spaces.
_971262
650 7 _aOptical physics.
_2bicssc
_971263
650 7 _aSCIENCE / Physics / Optics & Light.
_2bisacsh
_915843
710 2 _aInstitute of Physics (Great Britain),
_epublisher.
_911622
776 0 8 _iPrint version:
_z9780750351553
_z9780750351584
830 0 _aIOP (Series).
_pRelease 22.
_971264
830 0 _aIOP ebooks.
_p2022 collection.
_971265
856 4 0 _uhttps://iopscience.iop.org/book/mono/978-0-7503-5157-7
942 _cEBK
999 _c82986
_d82986