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crib_psp_swp_quick_start.pro
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crib_psp_swp_quick_start.pro
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pro crib_psp_swp_quick_start
;
;Welcome to a quick start guide to analyzing PSP SWEAP data. This is work in progress, please check back periodically for updates.
;
;Written by: Jaye Verniero [email protected]
;
;The user is encouraged to contact the SPAN instrument team for questions:
;Roberto Livi [email protected]
;Ali Rahmati [email protected]
;Michael McManus [email protected]
;Davin Larson [email protected]
;Phyllis Whittlesey [email protected]
;
;First, here are steps to download SPEDAS:
; 1.) http://spedas.org/wiki/index.php?title=Main_Page
; 2.) Under Downloads and Installation, Nightly build - Quick link to the nightly "bleeding edge" SPEDAS source code zip file.
; 3.) Unzip
; 4.) Do to IDL >> file > new Pro, (name it speeds), click create new project from exising directory, link to directory where spedas is placed.
; 5.) Window >> Preferences >> IDL >> Paths
; ================================================================================
; Load data
; ================================================================================
; 6.) Choose date to load, and number of days:
timespan,'2020-01-29',3
; 7.) type:
spp_swp_spi_load
; This loads the protons (the sf00 data product). Each variable will have a number. For example, the variable 'psp_swp_spi_sf00_L3_DENS' might have the number '2' next to it. To plot it, type:
tplot,2
; Plot multiple variables using brackets:
tplot,[2,8]
; You don't have to put numbers, you put the variable name in quotes:
tplot,'psp_swp_spi_sf00_L3_TEMP'
;8.) To load electron data, type:
spp_swp_spe_load
; For encounters 1-9, the strahl electrons are represented by the variable:
'psp_swp_spe_sf0_L3_EFLUX_VS_PA_E8'
; After 9, use:
'psp_swp_spe_sf0_L3_EFLUX_VS_PA_E12'
; 9.) Now add this variable to the top of the plot (using either the number or name)
tplot,/ad,'psp_swp_spe_sf0_L3_EFLUX_VS_PA_E8'
; 10.) If you want to pick the order of panels, type:
tplot,/pick
; Then use your cursor to click.
; 11.) If you want to resize the window, drag from the bottom right corner. Then type
tplot
; Again to re-plot on the larger window.
; 12.) To zoom in on a time, type:
tlimit
; And use your cursor to select the time range.
; 13.) To go back to the last time range you were looking at, type:
tlimit,/last
; And for the full time range of data,
tlimit,/full
; =================================================
; psp_swp_spi_sf00_L3_mom_INST_YYYYMMDD_v04.cdf (proton moment) v4 Variable description:
; DENS - Density (1/cm^3)
; VEL_INST - Velocity in SPAN-I instrument coordinates (km/s)
; VEL_SC - Spacecraft Velocity (km/s)
; VEL_RTN_SUN - Ion Velocity in RTN coordinates (km/s)
; TEMP - Ion Temperature (eV)
; T_TENSOR_INST - Temperature Tensor SPAN-I instrument coordinates
; EFLUX_VS_ENERGY - Proton Differential Energy Flux vs eV
; EFLUX_VS_THETA - Proton Differential Energy Flux vs Theta (deflectors)
; EFLUX_VS_PHI - Proton Differential Energy Flux vs Phi (anodes)
; SUN-DIST - Distance from Sun (km)
; VENUS-DIST - Distance from Venus (km)
; SC_VEL_RTN- Spacecraft Velocity in RTN coordinates (km/s)
; QUAT_SC_TO_RTN - Quaternion rotation of spacecraft in RTN coordinates
; MAGF_SC - Magnetic field downsampled to SPAN_I time resolution in spacecraft coordinates (nT)
; MAGF_INST - Magnetic field downsampled to SPAN_I time resolution in SPAN-I instrument coordinates (nT)
end