Your search keyword '"Chongxi Zhou"' showing total 4 results

1. Dispersive element based on grating and tunable Fabry-Perot filter in miniature spectrometer

Author

Chongxi Zhou, Liang Fang, and Zhendong Shi

Subjects

Materials science, Light, Physics::Optics, Grating, Feedback, Optics, Miniaturization, Scattering, Radiation, Electrical and Electronic Engineering, Engineering (miscellaneous), Diffraction grating, Spectrometer, business.industry, Spectrum Analysis, Near-field optics, Equipment Design, Spectral component, Surface Plasmon Resonance, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Refractometry, Interferometry, Optoelectronics, business, Fabry–Pérot interferometer, Free spectral range

Abstract

We present a new design for the integration of a tunable Fabry-Perot (FP) filter and the grating etched on top of the cavity (IGFP) in the miniature spectrometer. It is based on the predispersion of the grating with the capacity of spatial separation of the spectral component and filter effect of the tunable FP filter. The free spectral range (FSR) of the IGFP is determined by the FSR of the grating, and its resolution depends on the filtering capacity of the FP filter. In the experiment, the high-resolution and wavelength scanning process of the IGFP were demonstrated with a narrowband and broadband light source, respectively. The results of the sub-nanometer resolution agree well with those from a commercial optical spectrum analyzer. Further, the IGFP provides an effective approach to solve the problem of the decrease of spectral resolution in the miniaturization process.

Published

2014

2. Beam shaping system based on a prism array for improving the throughput of a dispersive spectrometer

Author

Chongxi Zhou, Bin Fan, Zhendong Shi, and Liang Fang

Subjects

Physics, Neon lamp, Laser diode, Spectrometer, business.industry, Stray light, Physics::Optics, Laser, Atomic and Molecular Physics, and Optics, law.invention, Luminous flux, Optics, law, Prism, Electrical and Electronic Engineering, business, Engineering (miscellaneous), Beam (structure)

Abstract

A beam shaping system (BSS) for improving the throughput of a dispersive spectrometer is presented by employing two anamorphic lenses and a prism array to segment the beam. The BSS was designed based on the inverse method of beam shaping for laser diode bars and the means of an optical slicer. In an experiment, a BSS was set up so that the incident light of a neon lamp with a circular spot from an input fiber was transformed into an elliptical spot coupled into a slit of a spectrometer without a change of divergence. Spectral measurement results demonstrate that the throughput of the dispersive spectrometer was doubled without loss of spectral resolution. The BSS can be combined with the existing dispersive spectrometer to improve the luminous flux and signal-to-noise ratio.

Published

2015

3. Experimental study of a multiwavelength photon sieve designed by random-area-divided approach

Author

Changtao Wang, Chunlei Du, Lifang Shi, Xiaochun Dong, and Chongxi Zhou

Subjects

Diffraction, Physics, business.industry, Stray light, Aperture, Mathematics::Number Theory, Materials Science (miscellaneous), Discrete space, Physics::Optics, Industrial and Manufacturing Engineering, law.invention, Lens (optics), Wavelength, Optics, law, Focal length, Business and International Management, business, Phase modulation

Abstract

In this paper, a design method for a multiwavelength photon sieve is described based on a random-area-divided approach, where the whole aperture of a multiwavelength imaging photon sieve is divided into multiple discrete spaces corresponding to the number of the selected working wavelengths. The micropinhole distribution in each discrete space can be calculated for the defined wavelength with one fixed focal length in terms of the normal design for photon sieve. A three-wavelength photon sieve was designed and fabricated in the lab, and its imaging properties are analyzed in the experimental optical system with satisfactory results.

Published

2009

4. Micrograting-array beam-shaping technique for asymmetrical laser beams

Author

Guoxing Zheng, Chunlei Du, Chunyan Zheng, and Chongxi Zhou

Subjects

Physics, Beam diameter, Laser diode, business.industry, Materials Science (miscellaneous), Near and far field, Beam parameter product, Industrial and Manufacturing Engineering, Collimated light, law.invention, Optics, law, Physics::Accelerator Physics, Optoelectronics, M squared, Laser beam quality, Business and International Management, business, Beam (structure)

Abstract

A beam-shaping technique is presented for asymmetrical laser beams with different beam waists and divergences in both vertical and horizontal directions. We utilize a pair of two-dimensional micrograting arrays to equalize the beam parameter products of an asymmetrical beam in orthogonal directions by deflecting the appointed parts of the beam on the longer side of the beam and by recombining the parts on the shorter side. When combined with divergent transformation by means of collimating optical components, the beam-shaping system can produce a symmetrical beam in orthogonal directions with optimized beam waists and divergences. A beam-equalization system is designed and demonstrated for a typical asymmetrical beam of a laser diode bar. In the experiment an emission beam with dimensions of 1 microm x 10 mm and half-divergences of 148 mrad x 576 mrad in the far field is transformed into an almost-square distribution with dimensions of -12 mm x 12 mm and half-divergences of -2 mrad x 2 mrad, which confirm the effectiveness of the proposed technique.

Published

2005