Blackbody r: Difference between revisions
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(Created page with "===Purpose=== Computes black body radiance and brightness temperature. ===Synopsis=== :v = blackbody_r(wv,temp,flag,wave) :temp = blackbody_r(wv,v,flag,wave) ===Description=...") |
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Latest revision as of 10:14, 23 May 2023
Purpose
Computes black body radiance and brightness temperature.
Synopsis
- v = blackbody_r(wv,temp,flag,wave)
- temp = blackbody_r(wv,v,flag,wave)
Description
BLACBODY_R is used to calculate randiance from the Planck function in units of W/(m^2 sr cm^-1) or uW/(m^2 sr um^-1). BLACBODY_R can be also be used to calculate brightness temperature from the inverse Planck function for inputs in units of W/(m^2 sr cm^-1) or uW/(m^2 sr um^-1). Calculations can be performed for axis units in wavenumbers (1/cm) or in microns (um). See I/O specific inputs/outputs below.
Input/Output
- v = blackbody_r(wv,temp);
- wv = 1xN row vector of wavelengths (um).
- temp = Kx1 vector of temperatures (K).
- v = KxN row vector of BB radiance uW/(m^2 sr um^-1) = uflicks
- temp = blackbody_r(wv,v,2);
- wv = 1xN row vector of wavelengths (um).
- v = KxN matrix of BB radiance uW/(m^2 sr um^-1) = uflicks
- temp = KxN matrix of temperatures (K).
- v = blackbody_r(nu,temp,1,2);
- nu = 1xN row vector of wavenumbers (1/cm).
- temp = Kx1 vector of temperatures (K).
- v = KxN row vector of BB radiance W/(m^2 sr cm^-1)
- temp = blackbody_r(nu,v,2,2);
- nu = 1xN row vector of wavenumbers (1/cm).
- v = KxN row vector of BB radiance W/(m^2 sr cm^-1)
- temp = KxN vector of temperatures (K).