## ----echo=FALSE--------------------------------------------------------------- knitr::opts_chunk$set(fig.width=8, fig.height=4) ## ----------------------------------------------------------------------------- library(photobiology) library(photobiologyWavebands) library(photobiologyFilters) library(ggspectra) theme_set(theme_bw()) ## ----------------------------------------------------------------------------- class(filters.mspct) ## ----------------------------------------------------------------------------- class(filters.mspct[[1]]) ## ----------------------------------------------------------------------------- class(metals.mspct) ## ----------------------------------------------------------------------------- class(metals.mspct[[1]]) ## ----------------------------------------------------------------------------- class(materials.mspct) ## ----------------------------------------------------------------------------- class(materials.mspct[[1]]) ## ----------------------------------------------------------------------------- class(refractive_index.mspct) ## ----------------------------------------------------------------------------- class(refractive_index.mspct[[1]]) ## ----------------------------------------------------------------------------- colnames(filters.mspct[[1]]) ## ----------------------------------------------------------------------------- colnames(metals.mspct[[1]]) ## ----------------------------------------------------------------------------- colnames(materials.mspct[[1]]) ## ----------------------------------------------------------------------------- colnames(refractive_index.mspct[[1]]) ## ----------------------------------------------------------------------------- band_pass_filters ## ----------------------------------------------------------------------------- schott_filters ## ----eval=FALSE--------------------------------------------------------------- # help(schott_filters) ## ----------------------------------------------------------------------------- names(metals.mspct) ## ----------------------------------------------------------------------------- names(materials.mspct) ## ----------------------------------------------------------------------------- names(refractive_index.mspct) ## ----------------------------------------------------------------------------- head(names(filters.mspct), 20) ## ----------------------------------------------------------------------------- if (utils::packageVersion('photobiology') > "0.10.4.9001") { print(colnames(spct_metadata(filters.mspct[1:5]))) spct_metadata(filters.mspct[1:5])[ , c("spct.idx", "what.measured")] } ## ----------------------------------------------------------------------------- filters.mspct$Schott_UG11 ## ----------------------------------------------------------------------------- filters.mspct[["Schott_UG11"]] ## ----------------------------------------------------------------------------- filters.mspct["Schott_UG11"] ## ----------------------------------------------------------------------------- filters.mspct[petri_dishes] ## ----------------------------------------------------------------------------- all_filter_selectors ## ----------------------------------------------------------------------------- filters.mspct[grep("UG", names(filters.mspct))] ## ----------------------------------------------------------------------------- grep("UG", names(filters.mspct), value = TRUE) ## ----------------------------------------------------------------------------- filters.mspct$Schott_UG11 ## ----------------------------------------------------------------------------- filter_properties(filters.mspct$Schott_UG11) ## ----------------------------------------------------------------------------- what_measured(filters.mspct$Schott_UG11) ## ----------------------------------------------------------------------------- how_measured(filters.mspct$Schott_UG11) ## ----------------------------------------------------------------------------- is_normalized(filters.mspct$Schoot_UG11) ## ----------------------------------------------------------------------------- cat(comment(filters.mspct$Schott_UG11), "\n") ## ----------------------------------------------------------------------------- getTfrType(filters.mspct$Schott_UG11) ## ----------------------------------------------------------------------------- convertThickness(filters.mspct$Schott_UG11, thickness = 4e-3) ## ----------------------------------------------------------------------------- convertTfrType(filters.mspct$Schott_UG11, Tfr.type = "total") ## ----------------------------------------------------------------------------- any2Afr(filters.mspct$Schott_UG11, action = "replace") ## ----------------------------------------------------------------------------- any2A(filters.mspct$Schott_UG11, action = "replace") ## ----------------------------------------------------------------------------- autoplot(filters.mspct$MIDOPT_LP500) ## ----------------------------------------------------------------------------- autoplot(filters.mspct$MIDOPT_LP500, annotations = list(c("-", "peaks"), c("+", "wls"))) ## ----------------------------------------------------------------------------- autoplot(filters.mspct$MIDOPT_TB550_660_850, annotations = c("+", "title:none:none:what", "wls"), w.band = VIS_bands(), range = c(500, 910), span = 11) ## ----------------------------------------------------------------------------- autoplot(filters.mspct[c("Schott_UG1", "Schott_UG11")], range = c(200, 900), annotations = c("+", "boundaries"), span = 11) ## ----------------------------------------------------------------------------- thin_and_thick.mspct <- filter_mspct(list("1 mm" = filters.mspct$Schott_UG11, "3 mm" = convertThickness(filters.mspct$Schott_UG11, thickness = 3e-3))) autoplot(thin_and_thick.mspct, range = c(200, 900), annotations = c("+", "boundaries"), span = 101) ## ----------------------------------------------------------------------------- stack.spct <- filters.mspct$Haida_Clear_Night_NanoPro_1.6mm_52mm * filters.mspct$Firecrest_UVIR_Cut_0.96mm_52mm autoplot(stack.spct, range = c(NA, 1400), w.band = c(UV_bands(), IR_bands("CIE")), annotations = list(c("+", "boundaries"), c("-", "peaks")), span = 21) + geom_line(data = filters.mspct$Haida_Clear_Night_NanoPro_1.6mm_52mm, colour = "purple") + geom_vline(xintercept = c(589, 589.6), linetype = "dotted") # Na emission lines ## ----------------------------------------------------------------------------- ggplot(filters.mspct$Firecrest_UVIR_Cut_0.96mm_52mm) + geom_line() + scale_x_wl_continuous() + scale_y_Tfr_total_continuous() ## ----------------------------------------------------------------------------- autoplot(metals.mspct$gold, range = c(NA, 800)) ## ----------------------------------------------------------------------------- autoplot(materials.mspct$grass, range = c(NA, 800)) ## ----------------------------------------------------------------------------- transmittance(filters.mspct$Firecrest_UVIR_Cut_0.96mm_52mm, UVA()) ## ----------------------------------------------------------------------------- absorbance(filters.mspct$Firecrest_UVIR_Cut_0.96mm_52mm, list(UVA(), NIR())) ## ----------------------------------------------------------------------------- transmittance(filters.mspct[grep("UG", names(filters.mspct))], list(UVB(), UVA())) ## ----------------------------------------------------------------------------- reflectance(metals.mspct, w.band = VIS_bands()) ## ----------------------------------------------------------------------------- head(as.data.frame(filters.mspct$Schott_UG11)) ## ----------------------------------------------------------------------------- attach(filters.mspct) transmittance(Schott_UG11, UVA()) detach(filters.mspct) ## ----------------------------------------------------------------------------- attach(filters.mspct) with(Schott_UG11, range(w.length)) detach(filters.mspct) ## ----------------------------------------------------------------------------- with(filters.mspct, transmittance(Schott_UG11, UVA()))