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Spectroscopic comparison between 1200grooves∕mm ruled and holographic gratings of a flat-field spectrometer and its absolute sensitivity calibration using bremsstrahlung continuum

2007; American Institute of Physics; Volume: 78; Issue: 2 Linguagem: Inglês

10.1063/1.2437742

1527-2400

M.B. Chowdhuri, S. Morita, M. Goto, Hiroaki Nishimura, Keiji Nagai, Shinsuke Fujioka,

Solar and Space Plasma Dynamics

A flat-field extreme ultraviolet (EUV) spectrometer with a varied line spacing groove grating (1200grooves∕mm at grating center) has been developed to study the emission spectra from highly ionized medium Z impurities in large helical device (LHD). It covers a wavelength range of 50–500Å using a mechanically ruled grating, which was later replaced by a newly developed laminar-type holographic grating for comparative studies. Differences in spectral resolution, intensities of higher order spectra, and sensitivities of the spectrometer were studied between the two gratings by observing the emission spectra of LHD plasmas. Although the achieved resolution was alike between them, i.e., Δλ∼0.24Å at 200Å, the holographic grating was much superior in suppressing the higher order light than the ruled grating. The relative sensitivity between the two gratings was evaluated using continuum radiation from LHD plasmas. As a result, it was found that the holographic grating has a flat response in the full wavelength range, but the sensitivity of the ruled grating drops sharply below 200Å. A new technique for the absolute calibration of the EUV holographic grating spectrometer was tried by combining the continuum radiation with a branching ratio of CIV lines (3p-3s: 5800Å∕3p-2s: 312Å), and an accurate absolute sensitivity has been successfully obtained.