ITMO
ru/ ru

ISSN: 1023-5086

ru/

ISSN: 1023-5086

Scientific and technical

Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

Article submission Подать статью
Больше информации Back

DOI: 10.17586/1023-5086-2019-86-06-07-10

УДК: 681.785.552.3, 681.785.555, 681.7.05

Calculating parameters of nonplanar diffraction gratings for compact high-aperture spectrographs

Melnikov, A.N., Lukin, A.V., Muslimov, E.R.

Full text «Opticheskii Zhurnal»

Full text on elibrary.ru

Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Мельников А.Н., Лукин А.В., Муслимов Э.Р. Расчёт параметров неплоских дифракционных решёток для компактных светосильных спектрографов // Оптический журнал. 2019. Т. 86. № 6. С. 7–10. http://doi.org/10.17586/1023-5086-2019-86-06-07-10

 

Melnikov A.N., Lukin A.V., Muslimov E.R. Calculating parameters of nonplanar diffraction gratings for compact high-aperture spectrographs [in Russian] // Opticheskii Zhurnal. 2019. V. 86. № 6. P. 7–10. http://doi.org/10.17586/1023-5086-2019-86-06-07-10

For citation (Journal of Optical Technology):

A. N. Mel’nikov, A. V. Lukin, and É. R. Muslimov, "Calculating parameters of nonplanar diffraction gratings for compact high-aperture spectrographs," Journal of Optical Technology. 86(6), 331-333 (2019). https://doi.org/10.1364/JOT.86.000331

Abstract:

The optical layout of a compact high-aperture spectrograph is calculated for an operating spectral range of 400–800 nm, an equivalent relative aperture of 1:1.75, and a spectral resolution of no more than 1.5 nm based on a concave nonclassical ruled diffraction grating. The current limitations of ruling and holographic technologies for forming nonplanar high-aperture diffraction concave gratings are considered, and the fabrication of such gratings by precision replication is proposed based on the use of polymer compositions with convex master gratings obtained using a pendulum-type ruling engine.

Keywords:

ruled diffraction gratings, nonplanar diffraction gratings, nonclassical diffraction gratings, compact high-aperture spectrograph, spectral resolution, pendulum-type ruling engine, precision replication

OCIS codes: 230.1950, 300.6190, 120.4570, 220.1000, 120.4610, 220.4000, 160.5470

References:

1. H. G. Beutler, “The theory of the concave grating,” J. Opt. Soc. Am. 35(2), 311–350 (1945).
2. C. Palmer and E. Loewen, Diffraction Grating Handbook (Newport Corporation, Rochester, 2005), pp. 12–252.
3. B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Getin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
4. F. M. Gerasimov and É. A. Yakovlev, Diffraction Gratings: Current Trends in Spectroscopy Technology (Nauka, Novosibirsk, 1982), pp. 24–94.
5. Hitachi, “Product Catalog,” http://www.hitachi-hightech.com.
6. AO Shvabe Holding, “Catalog of optical component base of AO NPO GIPO,” http://shvabe.com/about/company/gosudarstvennyy-institut-prikladnoy-optiki/produktsiyagipo/opticheskie-materialy.
7. HORIBA, “Gratings—OEM Diffraction Grating,” http://www.horiba.com/scientific/products/diffraction-gratings/for-industrial-applications.
8. Zeiss, “Gratings & Grisms,” http://www.zeiss.de/gratings.
9. Q. Zhou, L. Li, and L. Zeng, “A method to fabricate convex holographic gratings as master gratings for making flat-field concave gratings,” Proc. SPIE 6832, 68320W (2007).
10. D. Xu, J. D. Owen, J. C. Papa, J. Reimers, T. J. Suleski, J. R. Troutman, M. A. Davies, K. P. Thompson, and J. P. Rolland, “Design, fabrication, and testing of convex reflective diffraction gratings,” Opt. Express 25(13), 15252–15267 (2017).
11. C. Shen, X. Tan, Q. Jiao, W. Zhang, N. Wu, H. Bayan, and X. Qi, “Convex blazed grating of high diffraction efficiency fabricated by swing ion-beam etching method,” Opt. Express 26(19), 25381–25398 (2018).
12. I. A. Zarubin, V. A. Labusov, and S. A. Babin, “Comparison of compact spectrometers constructed using different optical layouts,” in Interexpo GEO–Siberia XIV International Scientific Conference (2018), pp. 126–133.
13. A. N. Mel’nikov and É. R. Muslimov, “Analysis of versions of the optical layout of a high-aperture imaging spectrograph based on a convex holographic diffraction grating,” J. Opt. Technol. 86(3), 153–159 (2019) [Opt. Zh. 86(3), 32–39 (2019)].
14. A. V. Lukin and A. N. Melnikov, “Pendulum type ruling engine for manufacturing groove structures on non-planar working surfaces,” Russian patent 185039 (2018).
15. M. M. Akhmetov, A. F. Belozerov, V. A. Baloev, A. A. Belokopytov, I. S. Gaı˘nutdinov, V. P. Ivanov, A. V. Lukin, A. N. Mel’nikov, and I. A. Mogilyuk, “Research and manufacturing center for massproduced precision replication of elements of aspherical and diffractive optics,” Kontenant 15(3), 39–42 (2016).