NIM/AIP/M1 - Bad T/RH values from thermal gradients

Due to the thermal inertia of the instrument wall, slow signal response and a radial 
temperature gradient inside the instrument cavity, the reported RH and temperature inside the 
wet nephelometer are off. The radial temperature gradients need to be characterized 
inside the instrument at several locations within the instrument with respect to a calibrated 
Vaisala T and RH sensor at the instrument exit. The resulting fRH VAP needs to be 
recalculated and analyzed.

Do not use data. Check with mentor about posting data to an external data archive.

• Bs_B_Wet_10um_max
• fRH_Bs_B_1um_3p_n
• fRH_Bs_B_10um_2p_n
• fRH_Bs_B_10um_2p
• Bs_B_Dry_1um_min
• ratio_85by40_Bs_G_1um_2p
• fRH_Bbs_B_10um_2p_n
• fRH_Bs_B_1um_2p_r_square
• RH_NephVol_Wet_min
• Bs_R_Wet_10um_max
• fRH_Bs_B_10um_2p_r_square
• fRH_Bs_R_10um_3p
• fRH_Bbs_G_1um_2p
• Bbs_G_Wet_1um_max
• Bs_G_Dry_1um_min
• fRH_Bs_B_10um_3p_r_square
• fRH_Bs_R_10um_2p
• Bbs_R_Dry_1um_min
• fRH_Bbs_R_10um_2p_n
• fRH_Bs_B_1um_3p
• Bs_R_Wet_1um_max
• fRH_Bs_G_1um_2p_n
• fRH_Bs_G_10um_2p_r_square
• Bs_G_Wet_10um_min
• Bbs_G_Dry_1um_min
• fRH_Bs_G_10um_3p
• Bbs_R_Dry_10um_max
• Bs_G_Dry_10um_min
• fRH_Bs_R_10um_2p_n
• fRH_Bbs_B_1um_2p_r_square
• fRH_Bs_B_1um_2p_n
• Bs_B_Wet_1um_max
• Bbs_R_Wet_1um_max
• Bbs_B_Dry_10um_max
• fRH_Bbs_B_10um_2p_r_square
• ratio_85by40_Bs_G_1um_3p
• Bs_G_Wet_1um_max
• fRH_Bbs_B_1um_2p_n
• Bbs_B_Dry_1um_min
• Bs_B_Dry_10um_max
• fRH_Bs_G_1um_3p_r_square
• fRH_Bs_R_1um_2p
• Bs_R_Dry_10um_max
• fRH_Bs_B_10um_3p_n
• fRH_Bs_R_1um_3p
• Bbs_G_Wet_10um_max
• fRH_Bs_B_1um_2p
• RH_NephVol_Dry_min
• Bbs_B_Wet_10um_max
• fRH_Bs_G_10um_2p
• fRH_Bs_G_10um_3p_r_square
• fRH_Bs_R_10um_3p_r_square
• fRH_Bs_G_10um_3p_n
• fRH_Bbs_G_1um_2p_r_square
• Bbs_R_Wet_10um_max
• Bbs_B_Wet_1um_min
• ratio_85by40_Bbs_R_1um_2p
• Bbs_G_Dry_10um_max
• fRH_Bs_B_10um_3p
• fRH_Bs_R_1um_2p_r_square
• fRH_Bs_G_1um_2p
• fRH_Bs_G_1um_3p
• Bs_R_Dry_1um_max
• fRH_Bbs_R_1um_2p_n
• fRH_Bs_R_10um_3p_n
• ratio_85by40_Bbs_B_1um_2p
• ratio_85by40_Bs_R_1um_3p
• Bs_R_Wet_10um_min
• Bbs_B_Dry_10um_min
• Bs_G_Dry_1um_max
• RH_NephVol_Wet_max
• fRH_Bs_R_1um_2p_n
• ratio_85by40_Bs_R_10um_3p
• ratio_85by40_Bs_B_1um_2p
• ratio_85by40_Bs_G_10um_3p
• fRH_Bbs_R_10um_2p
• Bbs_R_Wet_1um_min
• ratio_85by40_Bs_B_10um_2p
• fRH_Bbs_G_10um_2p
• ratio_85by40_Bs_R_1um_2p
• fRH_Bs_R_10um_2p_r_square
• Bbs_G_Wet_1um_min
• ratio_85by40_Bs_R_10um_2p
• ratio_85by40_Bs_B_1um_3p
• ratio_85by40_Bs_G_10um_2p
• fRH_Bbs_R_1um_2p_r_square
• Bbs_R_Dry_10um_min
• Bs_B_Dry_1um_max
• ratio_85by40_Bbs_G_1um_2p
• fRH_Bbs_B_10um_2p
• Bs_G_Wet_1um_min
• fRH_Bbs_R_1um_2p
• fRH_Bbs_G_10um_2p_n
• Bs_G_Dry_10um_max
• Bs_B_Wet_1um_min
• Bbs_G_Wet_10um_min
• fRH_Bs_R_1um_3p_r_square
• Bbs_G_Dry_1um_max
• ratio_85by40_Bbs_G_10um_2p
• fRH_Bbs_B_1um_2p
• Bs_R_Wet_1um_min
• Bbs_B_Dry_1um_max
• fRH_Bs_R_1um_3p_n
• fRH_Bs_G_10um_2p_n
• Bs_G_Wet_10um_max
• fRH_Bbs_R_10um_2p_r_square
• ratio_85by40_Bs_B_10um_3p
• fRH_Bbs_G_1um_2p_n
• Bs_R_Dry_10um_min
• RH_NephVol_Dry_max
• ratio_85by40_Bbs_R_10um_2p
• fRH_Bs_G_1um_2p_r_square
• Bs_B_Dry_10um_min
• Bbs_B_Wet_10um_min
• Bbs_B_Wet_1um_max
• Bbs_R_Dry_1um_max
• Bbs_G_Dry_10um_min
• fRH_Bbs_G_10um_2p_r_square
• fRH_Bs_G_1um_3p_n
• Bbs_R_Wet_10um_min
• Bs_R_Dry_1um_min
• ratio_85by40_Bbs_B_10um_2p
• fRH_Bs_B_1um_3p_r_square
• Bs_B_Wet_10um_min

• fRH_Bbs_G_1um_2p_n
• fRH_Bs_R_10um_2p_r_square
• ratio_85by40_Bs_R_10um_2p
• ratio_85by40_Bs_R_1um_3p
• ratio_85by40_Bs_B_1um_2p
• ratio_85by40_Bs_G_10um_3p
• Bbs_B_Wet_10um_min
• Bs_G_Wet_10um_min
• Bbs_G_Wet_10um_max
• RH_NephVol_Dry_min
• ratio_85by40_Bs_R_10um_3p
• ratio_85by40_Bs_B_1um_3p
• fRH_Bs_R_10um_3p_r_square
• ratio_85by40_Bs_G_10um_2p
• fRH_Bbs_R_1um_2p_r_square
• ratio_85by40_Bbs_G_1um_2p
• fRH_Bbs_R_10um_2p_n
• fRH_Bs_R_1um_3p_r_square
• fRH_Bs_G_10um_2p
• ratio_85by40_Bbs_G_10um_2p
• Bbs_R_Wet_1um_max
• fRH_Bs_R_10um_3p_n
• ratio_85by40_Bs_B_10um_2p
• Bs_G_Dry_10um_min
• fRH_Bs_R_10um_2p
• Bbs_R_Wet_10um_min
• fRH_Bbs_R_10um_2p_r_square
• ratio_85by40_Bs_R_1um_2p
• fRH_Bs_G_1um_2p_r_square
• fRH_Bs_G_1um_2p_n
• Bbs_G_Dry_1um_min
• Bbs_B_Dry_1um_max
• fRH_Bs_B_1um_2p_n
• ratio_85by40_Bs_B_10um_3p
• fRH_Bs_R_1um_3p_n
• Bbs_B_Dry_10um_min
• RH_NephVol_Wet_max
• fRH_Bs_B_10um_2p_n
• fRH_Bs_R_10um_3p
• Bbs_G_Dry_1um_max
• fRH_Bbs_B_1um_2p
• Bs_G_Dry_1um_max
• fRH_Bbs_G_1um_2p
• Bs_G_Dry_10um_max
• Bbs_R_Dry_10um_min
• Bbs_G_Dry_10um_max
• Bbs_G_Wet_1um_max
• fRH_Bbs_R_1um_2p
• fRH_Bs_G_10um_3p
• Bbs_R_Dry_1um_min
• ratio_85by40_Bbs_R_10um_2p
• Bs_B_Wet_1um_max
• Bs_B_Dry_10um_max
• Bs_G_Wet_1um_min
• Bs_R_Dry_1um_min
• Bs_R_Dry_10um_max
• fRH_Bbs_R_10um_2p
• Bs_R_Wet_10um_max
• fRH_Bbs_B_1um_2p_n
• fRH_Bs_G_10um_2p_n
• fRH_Bs_B_1um_3p_n
• fRH_Bs_B_1um_3p_r_square
• fRH_Bs_B_10um_2p_r_square
• fRH_Bs_B_10um_3p_n
• fRH_Bs_R_1um_2p_n
• ratio_85by40_Bbs_B_10um_2p
• Bbs_B_Wet_1um_min
• Bs_R_Wet_1um_max
• Bs_B_Wet_10um_max
• fRH_Bs_R_10um_2p_n
• Bs_B_Dry_1um_min
• ratio_85by40_Bbs_R_1um_2p
• Bs_G_Wet_10um_max
• ratio_85by40_Bs_G_1um_2p
• fRH_Bbs_G_10um_2p_r_square
• fRH_Bbs_G_10um_2p
• Bbs_B_Wet_10um_max
• Bs_R_Wet_10um_min
• fRH_Bs_B_1um_2p_r_square
• fRH_Bs_B_1um_3p
• fRH_Bs_G_10um_3p_n
• RH_NephVol_Dry_max
• fRH_Bs_G_10um_3p_r_square
• fRH_Bs_B_10um_3p_r_square
• fRH_Bs_R_1um_3p
• fRH_Bbs_B_1um_2p_r_square
• fRH_Bs_B_10um_3p
• Bbs_R_Wet_1um_min
• fRH_Bbs_B_10um_2p_r_square
• fRH_Bbs_R_1um_2p_n
• Bs_B_Wet_1um_min
• fRH_Bs_G_10um_2p_r_square
• ratio_85by40_Bs_G_1um_3p
• fRH_Bbs_B_10um_2p
• Bbs_R_Wet_10um_max
• fRH_Bs_G_1um_3p_r_square
• Bs_G_Dry_1um_min
• Bbs_B_Dry_1um_min
• Bs_R_Dry_1um_max
• fRH_Bbs_G_1um_2p_r_square
• Bbs_B_Wet_1um_max
• Bs_B_Dry_10um_min
• Bs_G_Wet_1um_max
• fRH_Bs_B_10um_2p
• Bbs_G_Dry_10um_min
• Bbs_R_Dry_10um_max
• Bbs_R_Dry_1um_max
• Bbs_G_Wet_10um_min
• fRH_Bs_B_1um_2p
• Bbs_G_Wet_1um_min
• fRH_Bs_G_1um_3p_n
• fRH_Bs_G_1um_2p
• Bs_R_Wet_1um_min
• fRH_Bs_R_1um_2p
• fRH_Bbs_G_10um_2p_n
• fRH_Bbs_B_10um_2p_n
• fRH_Bs_G_1um_3p
• fRH_Bs_R_1um_2p_r_square
• Bbs_B_Dry_10um_max
• Bs_B_Wet_10um_min
• Bs_B_Dry_1um_max
• RH_NephVol_Wet_min
• Bs_R_Dry_10um_min
• ratio_85by40_Bbs_B_1um_2p