Combined narrowband imager-spectrograph with volume-phase holographic gratings
Eduard R. Muslimov, Sergei N. Fabrika, Gennady G. Valyavin

TL;DR
This paper proposes a dual-mode instrument using volume-phase holographic gratings for high-resolution spectroscopy and imaging around 656 nm, enabling switchable operation modes with high efficiency and resolution.
Contribution
It introduces a novel combined narrowband imager-spectrograph design utilizing two volume-phase holographic gratings for switchable spectral and imaging modes.
Findings
Spectroscopic mode achieves R > 14000 resolution.
Imaging mode provides 12mm x 12mm field with 15-30 lines/mm resolution.
Instrument operates efficiently around 656 nm with F/6.3 optics.
Abstract
In the present work we discuss a possibility to build an instrument with two operation modes - spectral and imaging ones. The key element of such instrument is a dispersive and filtering unit consisting of two narrowband volume-phase holographic gratings. Each of them provides high diffraction efficiency in a relatively narrow spectral range of a few tens of nanometers. Besides, the position of this working band is highly dependent on the angle of incidence. So we propose to use a couple of such gratings to implement the two operational modes. The gratings are mounted in a collimated beam one after another. In the spectroscopic mode the gratings are turned on such angle that the diffraction efficiency curves coincide, thus the beams diffracted on the first grating are diffracted twice on the second one and a high-dispersion spectrum in a narrow range is formed. If the collimating and…
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