BibTestLM
; Determine a powerlaw colour correction for 100 GHz detectors.
hfi_100_cc = hfi_color_correction(BP_INFO=hfi_bp, '100', hfibolo_100_cc, $
/POWERLAW, ALPHA=2.0, ABP=hfi_avg, AVG_CC=AVG_100_cc)
<tt>help, hfibolo_100_cc, /struct ; Print info about the detector output.
; Determine a modified blackbody colour correction for Beta = 1.8 and T = 18 K.
hfi_545_cc = hfi_color_correction(BP_INFO=hfi_bp, '545', hfibolo_545_cc, /MODBLACKBODY, $
TBD = 18d, BETABD = 1.8d, ABP=hfi_avg, CH_CC=CH_545_CC, AVG_CC=AVG_545_CC)
print, hfibolo_545_cc.BOLONAME
print, hfibolo_545_cc.CC
- Note that 545-3 is set to as this detector is not included in flight data products due to excessive noise.
; Try to use a user-input spectrum nu = (hfi_avg[5].freq) ; in Hz Inu = COS((hfi_avg[5].trans)) ; some arb. profile hfi_857_cc = hfi_color_correction(BP_INFO=hfi_bp, '857', nu, Inu, hfibolo_857_cc, $ ABP=hfi_avg, CH_CC=CH_857_CC, AVG_CC=AVG_857_CC) print, hfibolo_857_cc.BOLONAME print, hfibolo_857_cc.CC ; Try to use another user-input spectrum nu = (hfi_avg[5].freq) ; in Hz Inu = LOG((hfi_avg[5].trans)) ; some arb. profile hfi_857_cc = hfi_color_correction(BP_INFO=hfi_bp, '857', nu, Inu, hfibolo_857_cc, $ ABP=hfi_avg, CH_CC=CH_857_CC, AVG_CC=AVG_857_CC) print, hfibolo_857_cc.BOLONAME print, hfibolo_857_cc.CC
and we get a link here #dupac2005,#hanson2009 but it looks a bit odd.
<biblio force=false>
</biblio>
To be defined / determined