Rotated chirped volume Bragg gratings for compact spectral analysis

TL;DR

This paper presents a rotated chirped volume Bragg grating (r-CBG) that compactly resolves the spectrum of incident light without free-space propagation, enabling ultra-compact spectrometers and pulse modulators.

Contribution

The introduction of a rotated chirped volume Bragg grating (r-CBG) that reduces device footprint while maintaining spectral resolution is a novel advancement.

Findings

Successfully fabricated and characterized r-CBGs in multiple spectral windows.

Demonstrated spectral resolution and spectrum recombination with cascaded r-CBGs.

Confirmed potential for ultra-compact spectrometers and pulse modulators.

Abstract

We introduce a new optical component - a rotated chirped volume Bragg grating (r-CBG) - that spatially resolves the spectrum of a normally incident light beam in a compact footprint and without the need for subsequent free-space propagation or collimation. Unlike conventional chirped Bragg volume gratings in which both the length and width of the device must be increased to increase the bandwidth, by rotating the Bragg structure we sever the link between the length and width of an r-CBG, leading to a significantly reduced device footprint for the same bandwidth. We fabricate and characterize such a device in multiple spectral windows, we study its spectral resolution, and confirm that a pair of cascaded r-CBGs can resolve and then recombine the spectrum. Such a device can lead to ultra-compact spectrometers and pulse modulators.