Simulation model of a multichannel Offner hyperspectrometer
A.D. Golovin , A.V. Demin

 

Saint Petersburg National Research University of Information Technologies, Mechanics and Optics
(ITMO University) Saint-Petersburg, Russia

Full text of article: Russian language.

 PDF

Abstract:
We study an advanced airborne hyperspectral system based on the Offner scheme for Earth remote sensing that has the advantages of compact size and high spatial and spectral resolution. An algorithm that enables choosing the most effective design parameters is developed. A schematic design and a simulation model of the multichannel hyperspectrometer are discussed.

Keywords:
Offner anastigmat, hyperspectrometer, multi-channel system, convex grating, Earth remote sensing.

Citation:
Golovin AD, Demin AV. Simulation model of a multichannel Offner hyperspectrometer. Computer Optics 2015; 39(4): 521-8. DOI: 10.18287/0134-2452-2015-39-4-521-528.

References:

  1. Agapov VM. In orbit, the new spacecraft observations // News of Cosmonautics 2000; 5: 22-3.
  2. Gorbunov GG, Demin AV, Nikiforov VO Sawicki AM, Skvortsov YS, Sokolsky MN, Tregub VP. Hyperspectral equipment for remote sensing .Opt 2009; 76: 75-82.
  3. Schpwengerdt RA. Remote Sensing. Models and Methods for Image Processing. Burlington MA: “Elsevier Inc.” Publishers, 2007.
  4. Kazanskiy NL, Kharitonov SI, Doskolovich LL, Pavelyev AV. Modeling the performance of a spaceborne hyperspectrometer based on the offner scheme. Copmuter Optics 2015; 39(1): 70-6.
  5. Offner A. New Concepts in Projection Mask Aligners. Optical Engineering 1975; 14(2): 130-2.
  6. Offner A. Annular field systems and the future of optical microlithography. Optica lEngineering 1987; 26(4): 294-9.
  7. Chrisp MP. Convex diffraction grating imaging spectrometer // Patent No. US 5880834 A. Date of Publication 9.03.1999.
  8. Karpeev SV, Khonina SN, Kharitonov SI. Fabrication and study of the diffraction grating on a convex surface for spectral instrum. Copmuter Optics 2015; 39(2): 211-7.
  9. Mouroulis P, Wilson DW, Maker PD, Muller RE. Convex grating types for concentric imaging spectrometers. Applied Optics 1998; 37(31): 7200-8.
  10. Richard E, Wilson D, Maker P, Muller R, Jet. Muller Electron-Beam Fabrication of Analog-Relief Diffractive Optics on Non-Flat Substrates at Jet Propulsion Laboratory. Conference Paper Propulsion Lab., California Inst. of Tech 2002.
  11. Bruk MA, Zhikharev EN, Streltsov DR, Kalnov VA, Spirin AV, Rogozhin AE. Some peculiarities of a new method of microrelief creation by the direct electron-beam etching of resist . Copmuter Optics 2015; 39(2): 204-10.
  12. Peysahson IV. Optics of spectral devices. - Ed. 2nd, ext. and rev. Leningrad: “Engineering” Publisher 1975; 312 p.
  13. Malyshev VI. Introduction to experimental spectroscopy. Moscow: “Nauka” Publisher 1979; 480 p.
  14. Tarasov KI. Designing of spectroscopic equipment. Leningrad: “Engineering” Publisher 1980; 216 p.
  15. Prieto-Blanco X. Gonz<lez-Nu>ez H, de la Fuent R. Off-plane anastigmatic imaging in Offner spectrometers. Journal of the Optical Society of America A2011; 28: 2332-9.
  16. Kim SH, Kwo D, Lawrence G, Kong HJ, Lee JU, Lee JH Design and construction of an Offner spectrometer based on geometrical analysis of ring fields. Review of Scientific Instruments 2014; 85: P. 1-7.
  17. Yang B, Liu C, Ding X, Wang X, Liu Y. Blaze Wavelength of Convex Blazed Grating in An Offner Spectrometer. SPIE Proceedings 2012; 7655.
  18. Greisukh GI, Ezhov EG, Kazin SV, Sidyakina ZA, Stepanov SA. Visual assessment of the influence of adverse diffraction orders on the quality of image formed by the refractive - diffractive optical system. Copmuter Optics 2014; 38(3): 418-24.
  19. Cheng Y, Liu Q, Wu J. Groove profile modification of convex blazed gratings by dip (spin) coating with photoresist. SPIE Proceedings 2014; 9047.
  20. PCGrate-S(X) – software for calculations of diffraction efficiency of different types of relief gratings on PCs. Source: <http://www.pcgrate.com/>.
  21. ZEMAX Optical Design Program – software package for analysis and designing of optical systems [electronic resource]. Source: <https://www.zemax.com/>.

© 2009, IPSI RAS
151, Molodogvardeiskaya str., Samara, 443001, Russia; E-mail:journal@computeroptics.ru; Tel: +7 (846) 242-41-24 (Executive secretary), +7 (846) 332-56-22 (Issuing editor), Fax: +7 (846) 332-56-20