C. V. Perkins scite author profile

A new procedure has been developed which improves the reproduction of spectral line shapes from spectrographs with charge-coupled device (CCD) detection. The procedure, which requires that the image of the entrance aperture be slanted with respect to the columns of the CCD pixels, increases the effective spatial resolution of the instrument without the necessity for mechanical scanning of the exit focal plane and the acquisition of multiple images. A simple algorithm is described which converts the recorded two-dimensional data into a one-dimensional spectrum. The resultant spectrum lacks the stepped and angular appearance normally associated with CCD-derived spectral data. In addition, the dependence of the peak height signal with the peak center position for narrow spectral features is substantially reduced. For example, the variation in peak height signal with the intra-pixel peak position, for a spectral line with full width at half-maximum of 2.0 pixels, can be reduced from 15% to only 3%. The procedure has been implemented on an Echelle spectrograph used for inductively coupled plasma atomic emission spectroscopy (ICP-AES).

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Automatic wavelength calibration procedure for use with an optical spectrometer and array detector

Sadler¹,

Littlejohn²,

Perkins³

1995

J. Anal. At. Spectrom.

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Multi-element optimization of the operating parameters for inductively coupled plasma atomic emission spectrometry with a charge-transfer device detection system: a study of the effects of different response functions

Sadler¹,

Littlejohn²,

Perkins³

1996

J. Anal. At. Spectrom.

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C. V. Perkins

The new generation of L. C. columns; A critical evaluation of their systems compatibility and performance

Use of signal-to-root background ratio as the optimization parameter for inductively coupled plasma atomic emission spectroscopy with charged-coupled device detection

Improvements in Spectral Line Shape Reproduction from Spectrographs with CCD Detection

Automatic wavelength calibration procedure for use with an optical spectrometer and array detector

Multi-element optimization of the operating parameters for inductively coupled plasma atomic emission spectrometry with a charge-transfer device detection system: a study of the effects of different response functions

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