chem.spectra = {} function chem.spectra.draw(xlabel, ylabel, unsetX, unsetY, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, above, points) if type ( fileName ) == "table" then theFunction = {} for index, file in ipairs ( fileName ) do if type ( file ) == "table" then markFileAsUsed ( file [ 1 ] ) file [ 1 ] = "'"..file[1].."'" table.insert ( theFunction, file ) else markFileAsUsed ( file ) table.insert ( theFunction, "'"..file.."'" ) end end else markFileAsUsed ( fileName ) theFunction = "'"..tostring(fileName).."'" end return gnuplot.plotFunction ( xlabel, ylabel, unsetX, unsetY, title or "\\GetTitleStringResult", theFunction, xMin, xMax, yMin, yMax, colour, plot, peaks, above, points ) end function chem.spectra.ir(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return chem.spectra.draw ( "${\\acrshort{waveNumber} / \\Newunit{cm-1}{}}$", "${\\text{Transmission} / \\Newunit{percent}{}}$", false, false, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, false ) end function chem.spectra.raman(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return chem.spectra.draw ( "${\\Delta\\acrshort{waveNumber} / \\Newunit{cm-1}{}}$", "${\\text{Intensität}}$", false, true, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, true ) end function chem.spectra.pxrd(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return chem.spectra.draw ( "${2\\,\\Theta / \\Newunit{degree}{}}$", "${\\text{Intensität}}$", false, true, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, true ) end function chem.spectra.uvvis(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return chem.spectra.draw ( "${\\acrshort{waveLength} / \\Newunit{nanometre}{}}$", "${\\text{Extinktion}}$", false, true, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, true ) end function chem.spectra.iuvvis(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return chem.spectra.draw ( "${\\acrshort{waveNumber} / \\Newunit{cm-1}{}}$", "${\\text{Extinktion}}$", false, true, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, true ) end function chem.spectra.tauc(title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks) return spectra ( "${\\acrshort{bandGap} / \\Newunit{electronVolt}{}}$", "${\\left(\\acrshort{absorptionCoefficient}\\cdot\\acrshort{planckConstant}\\cdot\\acrshort{waveFrequency}\\right)^2}$", false, false, title, fileName, xMin, xMax, yMin, yMax, colour, plot, peaks, true ) end function chem.spectra.cv(title, reference, fileName, xMin, xMax, yMin, yMax, colour, plot, points) return chem.spectra.draw ( "${\\acrshort{dcVoltage} / \\Newunit{volt}{}}$ \\acrshort{versus} "..reference, "${\\acrshort{dcCurrent} / \\Newunit{microampere}{}}$", false, false, title, fileName, xMin, xMax, yMin, yMax, colour, plot, false, true, points ) end