论文信息 - High spectral contrast filtering produced by multiple pass reflections from paired Bragg gratings in PTR glass

High spectral contrast filtering produced by multiple pass reflections from paired Bragg gratings in PTR glass

The properties of multiple reflections from narrow bandwidth reflection Bragg gratings are presented. The use of multiple reflections serves to increase the suppression ratio of the out-of-band spectral content such that contributions of grating sidelobes can be mitigated. The result is a device which retains spectral and angular selectivity in a single high efficiency diffraction order but reshapes spectral/angular response to achieve higher signal to noise ratios (SNR). The material for recording these high suppression devices is photo-thermo-refractive (PTR) glass. PTR is a highly homogeneous photosensitive glass with features such as low losses and high laser damage threshold. It has recently been used with good success to record permanent volume Bragg gratings with high efficiency and narrow band selectivity for use in laser cavities. Multiple reflections from the grating surface are achieved using several different arrangements. The multiple pass grating reflections are demonstrated and compared to the performance of a single reflection from a volume Bragg grating.

Leonid Glebov | Marc SeGall | Daniel Ott | Ivan Divliansky | George Venus

[1] Leonid B. Glebov,et al. Diffractive optical elements in photosensitive inorganic glasses , 2001, SPIE Optics + Photonics.

[2] H. Kogelnik. Coupled wave theory for thick hologram gratings , 1969 .

[3] Igor V. Ciapurin,et al. Modeling of Gaussian beam diffraction on volume Bragg gratings in PTR glass , 2005, SPIE OPTO.

[4] Leonid B. Glebov. Fluorinated silicate glass for conventional and holographic optical elements , 2007, SPIE Defense + Commercial Sensing.

[5] Susumu Noda,et al. Two-dimensional photonic-crystal-slab channeldrop filter with flat-top response. , 2005, Optics express.

[6] Julien Lumeau,et al. Ultra-narrow bandpass filters based on volume Bragg grating technologies , 2010, Defense + Commercial Sensing.

[7] L. Glebov,et al. High-frequency Bragg gratings in a photothermorefractive glass. , 2000, Optics letters.

[8] Leonid B. Glebov,et al. Spectral stabilization of high efficiency diode bars by external Bragg resonator. , 2005 .

[9] Vadim Smirnov,et al. Thermal tuning of volume Bragg gratings for high power spectral beam combining , 2010, LASE.

[10] H. Haus,et al. Microring resonator channel dropping filters , 1997 .