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-{{::​libradtran.pdf|}}=== Main documentation of libRadtran ===+=== Main documentation of libRadtran ===
  
-    * Documentation for [[http://​www.libradtran.org/​doc/​libradtran.pdf|version 2.0 in pdf]] format, also included in the package (libRadtran/​doc/​libRadtran.pdf).+    * Documentation for [[http://​www.libradtran.org/​doc/​libradtran.pdf|version 2.0.4 in pdf]] format, also included in the package (libRadtran/​doc/​libRadtran.pdf).
     * A few words on the basic usage of the package can be found [[:basic usage|here]].     * A few words on the basic usage of the package can be found [[:basic usage|here]].
  
  
     ​     ​
-=== libRadtran ​Publications ​===+=== libRadtran ​publications ​===
  
-The two reference publications ​**provide an overview of libRadtran and examples of use**:+The two reference publications provide an **overview of libRadtran and examples of use**:
  
   * C. Emde, R. Buras-Schnell,​ A. Kylling, B. Mayer, J. Gasteiger, U. Hamann, J. Kylling, B. Richter, C. Pause, T. Dowling, and L. Bugliaro. **The libradtran software package for radiative transfer calculations (version 2.0.1).** //​Geoscientific Model Development//,​ 9(5):​1647-1672,​ 2016, [[http://​www.geosci-model-dev.net/​9/​1647/​2016/​|link]]   * C. Emde, R. Buras-Schnell,​ A. Kylling, B. Mayer, J. Gasteiger, U. Hamann, J. Kylling, B. Richter, C. Pause, T. Dowling, and L. Bugliaro. **The libradtran software package for radiative transfer calculations (version 2.0.1).** //​Geoscientific Model Development//,​ 9(5):​1647-1672,​ 2016, [[http://​www.geosci-model-dev.net/​9/​1647/​2016/​|link]]
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 The **absorption parameterization REPTRAN** (default in libRadtran) is described in:  The **absorption parameterization REPTRAN** (default in libRadtran) is described in: 
    
-  *  J. Gasteiger, C. Emde, B. Mayer, R. Buras, S.A. Buehler, and O. Lemke. **Representative wavelengths absorption parameterization applied to satellite channels and spectral bands.** //J. Quant. Spectrosc. Radiat. Transfer//, 148(0):​99-115,​ 2014, [[http://​www.sciencedirect.com/​science/​article/​pii/​S0022407314002842|link]].+  *  J. Gasteiger, C. Emde, B. Mayer, R. Buras, S.A. Buehler, and O. Lemke. **Representative wavelengths absorption parameterization applied to satellite channels and spectral bands.** //J. Quant. Spectrosc. Radiat. Transfer//, 148(0):​99-115,​ 2014, [[http://​www.sciencedirect.com/​science/​article/​pii/​S0022407314002842|link]],​{{::​reptran_paper_preprint.pdf|preprint}}
  
-Updates included into the **default radiative transfer solver DISORT** (C-Version of DISORT ​by with improved intensity correction method) are described in:+Updates included into the **default radiative transfer solver DISORT** (C-Version of DISORT with improved intensity correction method) are described in:
  
   * R. Buras, T. Dowling, and C. Emde. **New secondary-scattering correction in DISORT with increased efficiency for forward scattering.** //J. Quant. Spectrosc. Radiat. Transfer//, 112(12):​2028-2034,​ 2011. [[https://​doi.org/​10.1016/​j.jqsrt.2011.03.019|link]].   * R. Buras, T. Dowling, and C. Emde. **New secondary-scattering correction in DISORT with increased efficiency for forward scattering.** //J. Quant. Spectrosc. Radiat. Transfer//, 112(12):​2028-2034,​ 2011. [[https://​doi.org/​10.1016/​j.jqsrt.2011.03.019|link]].
  
 +The tool to calculate line-by-line absorption coefficients **py4CAtS** (PYthon for Computational ATmospheric Spectroscopy) is described in: 
  
-There are various publications related to **Monte Carlo solver MYSTIC** (1D version available in the public version of libRadtran)+  ​F. Schreier, S. Gimeno García, P. Hochstaffl, and S. Städt. ​**Py4CAtS—PYthon for Computational ATmospheric Spectroscopy**. Atmosphere 2019, 10, 262. [[https://​www.mdpi.com/​2073-4433/​10/​5/​262/​htm|link]]
  
-  ​B. Mayer. ​**Radiative transfer ​in the cloudy atmosphere.** //European Physical Journal Conferences//,​ 1:75-99, 2009. [[http://​www.epj-conferences.org/​articles/​epjconf/​abs/​2009/​01/​epjconf1008/​epjconf1008.html|link]]+There are various publications related to the **Monte Carlo solver MYSTIC** (1D version available ​in the public version of libRadtran):
  
-  * CEmde, RBuras, B. Mayer, and M. Blumthaler. **The impact ​of aerosols on polarized sky radiancemodel development,​ validation, and applications.** //Atmos. Chem. Phys.//, ​10, 383-3962010. [[http://​www.atmos-chem-phys.net/​10/383/2010/acp-10-383-2010.html|link]]+  * //General overview:// BMayer**Radiative transfer in the cloudy atmosphere.** //European Physical Journal Conferences//​1:75-99, 2009. [[http://​www.epj-conferences.org/​articles/​epjconf/​abs/​2009/​01/​epjconf1008/​epjconf1008.html|link]] 
 +     
 +  * //Spherical geometry:// C. Emde and B. Mayer. **Simulation ​of solar radiation during a total eclipsea challenge for radiative transfer.** //Atmos. Chem. Phys.//, ​7:2259-2270May 2007. [[http://​www.atmos-chem-phys.net/​7/2259/2007/|link]]
  
-  * R. Buras and B. Mayer. **Efficient unbiased variance reduction techniques for Monte Carlo simulations ​of radiative transfer in cloudy atmospheresthe solution.** //JQuantSpectroscRadiat. Transfer//, 112434-4472011. [[http://​www.sciencedirect.com/science/article/pii/S0022407311001373|link]]+  * //​Polarization://​ C. Emde, R. BurasB. Mayer, and M. Blumthaler. **The impact ​of aerosols on polarized sky radiancemodel development,​ validation, and applications.** //AtmosChemPhys.//, 10383-3962010. [[http://​www.atmos-chem-phys.net/10/383/2010/acp-10-383-2010.html|link]]
  
-  * CEmdeRBuras, R., and BMayer. **ALIS: An efficient method to compute high spectral resolution polarized solar radiances using the Monte Carlo approach.** //JQuantSpectroscRadiat. Transfer//, 1121622-16312011. [[http://www.sciencedirect.com/science/article/pii/S0022407311001373|link]] +  * //​Topography://​ BMayerS.WHoch, and C.D. Whiteman. **Validating ​the MYSTIC three-dimensional radiative transfer model with observations from the complex topography of Arizona'​s Meteor Crater.** //AtmosChemPhys.//, 108685-86962010. [[https://www.atmos-chem-phys.net/10/8685/2010/|link]]
-  ​+
  
 +  * //Variance reduction methods:// R. Buras and B. Mayer. **Efficient unbiased variance reduction techniques for Monte Carlo simulations of radiative transfer in cloudy atmospheres:​ the solution.** //J. Quant. Spectrosc. Radiat. Transfer//, 112, 434-447, 2011. [[http://​www.sciencedirect.com/​science/​article/​pii/​S0022407311001373|link]]
 +
 +  * //Efficient spectral calculations://​ C. Emde, R. Buras, R., and B. Mayer. **ALIS: An efficient method to compute high spectral resolution polarized solar radiances using the Monte Carlo approach.** //J. Quant. Spectrosc. Radiat. Transfer//, 112, 1622-1631, 2011. [[http://​www.sciencedirect.com/​science/​article/​pii/​S0022407311001373|link]]
 +  ​
 +  * //Thermal heating and cooling rates:// C. Klinger and B. Mayer. **Three-dimensional Monte Carlo calculation of atmospheric thermal heating rates.** , //J. Quant. Spectrosc. Radiat. Transfer//, 144:​123--136,​ 2014. [[https://​www.sciencedirect.com/​science/​article/​pii/​S0022407314001642|link]]
  
-=== To do list ===+=== libRadtran development ​===
  
 +If you want to contribute to further development of libRadtran please contact the libRadtran developers.
  
-If you want to contribute to further development of libRadtran some ideas are provided in the [[:​documentation:​todo|TODO]] file. 
  
  
  
    
 
 
documentation.1513873183.txt.gz · Last modified: 2017/12/21 16:19 by claudia
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