About wavelength calibration, Calibrating the spectrometer, Preparing for calibration – Ocean Optics HR2000CG-UV-NIR User Manual

Appendix A

HR2000 High-Resolution Fiber Optic Spectrometer

31

Appendix A: Calibrating the Wavelength of the

HR2000

This Appendix describes how to calibrate the wavelength of your spectrometer. Although each spectrometer is
calibrated before it leaves Ocean Optics, the wavelength for all spectrometers will drift slightly as a function of
time and environmental conditions. Ocean Optics recommends periodically recalibrating the HR2000.

About Wavelength Calibration

You are going to be solving the following equation, which shows that the relationship between pixel number and
wavelength is a third-order polynomial…

λ

p

= I + C

1

p + C

2

p

2

+ C

3

p

3

...where

λ

is the wavelength of pixel p, I is the wavelength of pixel 0, C

1

is the first coefficient (nm/pixel), C

2

is the

second coefficient (nm/pixel

2

), and C

3

is the third coefficient (nm/pixel

3

). You will be calculating the value for I and

the three Cs.

Calibrating the Spectrometer

Preparing for Calibration

To re-calibrate the wavelength of your spectrometer, you will need the following:

• A light source capable of producing spectral lines

Note: Ocean Optics’ HG-1 Mercury-Argon lamp is ideal for recalibration. If you do not have an HG-1,

you will need a light source that produces several (at least 4-6) spectral lines in the wavelength
region of your spectrometer.

• An

HR2000

spectrometer

• An optical fiber (for spectrometers without a built-in slit, a 50-

µ

m fiber works best)

• A spreadsheet program (Excel or Quattro Pro, for example) or a calculator that performs third-order linear

regressions

Note: If you are using Microsoft Excel, choose Tools | Add-Ins and check AnalysisToolPak and

AnalysisTookPak-VBA.