English

Longitudinal Computer Generated Holograms for Digital Frequency Control in Electronically Tunable Terahertz Lasers

Optics 2015-06-05 v1 Materials Science

Abstract

A transverse computer-generated hologram (CGH) diffracts and provides flexible control of incident light by steering it to any point in the projected image plane - i.e. CGHs are able to direct the light to where it is needed and away from where it is not. In addition, the number of resolvable points in the image projection plane is a function of the CGH's pixel count. Here we report a longitudinal CGH (LCGH), a photonic structure, which swaps the ability to steer light toward fixed spatial points for digital control in the frequency domain. This is of particular interest in the context of tunable lasers. In this regard, an LCGH offers two important degrees-of-freedom (DOFs): 1) provides high-resolution wavevector or k space resolution within the Brillouin zone; 2) enables full control to define or modify the reflectivity at each resolvable k point, so attaining a target spectral response. We demonstrate the flexibility of our LCGH approach by achieving purely electronic tuning between six digitally-selected operating frequencies in a single section terahertz (THz) quantum cascade laser (QCL). These switchable single-frequency devices will simplify combining the power and flexibility of THz QCLs with spectroscopic applications, such as remote sensing, spectral analysis, and both security and medical imaging.

Keywords

Cite

@article{arxiv.1205.3042,
  title  = {Longitudinal Computer Generated Holograms for Digital Frequency Control in Electronically Tunable Terahertz Lasers},
  author = {Subhasish Chakraborty and Owen P. Marshall and Md. Khairuzzaman and Harvey E. Beere and David A. Ritchie},
  journal= {arXiv preprint arXiv:1205.3042},
  year   = {2015}
}

Comments

17 pages, 4 Figures, submitted to Nature Photonics

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