Abstract

This paper discusses the possibility of correcting the curvature of spectral images in prism-type video spectrometers by using an auxiliary compensation prism.

© 2014 Optical Society of America

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  1. V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).
  2. A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).
  3. A. S.  Molchanov, “The status, development, and use of hyperspectral technologies in aerospace and airborne reconnaissance systems,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 21–22.
  4. S. A.  Arkhipov, A. Yu.  Lyakhov, A. P.  Tarasov, “Work at the OAO S. A. Zverev Krasnogorsk Factory on the creation of long-range hyperspectral devices,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 25–30.
  5. A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.
  6. I. V.  Peĭsakhson, The Optics of Spectral Devices (Mashinostroenie, Leningrad, 1975).
  7. “Colorless optical glass. Physical and chemical characteristics. Main parameters” (IPK Izd. Standartov, Moscow, 1999).
  8. V. I.  Malyshev, Introduction to Experimental Spectroscopy (Nauka, Moscow, 1979).

2008 (2)

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).

Afonin, A. V.

A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).

Alekseev, A. A.

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

Arkhipov, S. A.

S. A.  Arkhipov, A. Yu.  Lyakhov, A. P.  Tarasov, “Work at the OAO S. A. Zverev Krasnogorsk Factory on the creation of long-range hyperspectral devices,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 25–30.

Chikov, K. N.

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

Gorbunov, G. G.

A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).

Gruzdev, V. N.

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

Krasavtsev, V. M.

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

Lyakhov, A. Yu.

S. A.  Arkhipov, A. Yu.  Lyakhov, A. P.  Tarasov, “Work at the OAO S. A. Zverev Krasnogorsk Factory on the creation of long-range hyperspectral devices,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 25–30.

Malyshev, V. I.

V. I.  Malyshev, Introduction to Experimental Spectroscopy (Nauka, Moscow, 1979).

Molchanov, A. S.

A. S.  Molchanov, “The status, development, and use of hyperspectral technologies in aerospace and airborne reconnaissance systems,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 21–22.

Peisakhson, I. V.

I. V.  Peĭsakhson, The Optics of Spectral Devices (Mashinostroenie, Leningrad, 1975).

Semenov, A. N.

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

Shilin, B. V.

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

Shlishevskii, V. B.

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).

Tarasov, A. P.

S. A.  Arkhipov, A. Yu.  Lyakhov, A. P.  Tarasov, “Work at the OAO S. A. Zverev Krasnogorsk Factory on the creation of long-range hyperspectral devices,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 25–30.

Opt. Atmos. Okeana (2)

V. M.  Krasavtsev, A. N.  Semenov, K. N.  Chikov, V. B.  Shlishevskiĭ, “Some features of the calculation and design of promising video spectral systems for remote probing,” Opt. Atmos. Okeana 21, 164 (2008).

A. V.  Afonin, G. G.  Gorbunov, V. B.  Shlishevskiĭ, “Video spectrometric apparatus based on a Fourier spectrometer for detecting small gaseous impurities in the atmosphere,” Opt. Atmos. Okeana 21, 823 (2008).

Other (6)

A. S.  Molchanov, “The status, development, and use of hyperspectral technologies in aerospace and airborne reconnaissance systems,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 21–22.

S. A.  Arkhipov, A. Yu.  Lyakhov, A. P.  Tarasov, “Work at the OAO S. A. Zverev Krasnogorsk Factory on the creation of long-range hyperspectral devices,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 25–30.

A. A.  Alekseev, V. N.  Gruzdev, B. V.  Shilin, V. M.  Krasavtsev, K. N.  Chikov, “Flight tests of video spectrometers at St. Petersburg National Research University of Information Technologies, Mechanics, and Optics with a polychromator based on a diffraction grating,” in Abstracts of Reports from the Scientific–Engineering Conference on Hyperspectral Devices and Technologies, Krasnogorsk, 2013, pp. 60–61.

I. V.  Peĭsakhson, The Optics of Spectral Devices (Mashinostroenie, Leningrad, 1975).

“Colorless optical glass. Physical and chemical characteristics. Main parameters” (IPK Izd. Standartov, Moscow, 1999).

V. I.  Malyshev, Introduction to Experimental Spectroscopy (Nauka, Moscow, 1979).

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