Longitudinal computer-generated holograms for digital frequency control in electronically tunable terahertz lasers

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 1 .In addition, the number of resolvable points in the image projection plane is a function of the CGH's pixel count 2 . Here we report a longitudinal CGH (LCGH), a photonic structure, which swaps the ability to steer light toward fixed spatial points for digita… Show more

“…The intended ρ(f) of the ADFB filter introduced to this laser is presented in Fig. 1c and was calculated using the approximate Fourier transform relationship with the real space relative permittivity of the grating, using | ∆n| = 0.1 [2]. In reality, |∆n| is unknown for QCL A but is expected to be lower than 0.1 due to the observed lack of switchable, single mode selectivity (Fig.…”

“…In this way, the emission characteristics of a THz quantum cascade laser (QCL) can be controlled. The THz QCLs we report have novel, integrated aperiodic distributed feedback (ADFB) gratings, providing a multi-band filtering 'signature' [2]. We aim to directly alter the filtering strength and therefore reveal the influence of graphene on the SP mode.…”

Graphene-controlled Terahertz Plasmonic Laser

“…The intended ρ(f) of the ADFB filter introduced to this laser is presented in Fig. 1c and was calculated using the approximate Fourier transform relationship with the real space relative permittivity of the grating, using | ∆n| = 0.1 [2]. In reality, |∆n| is unknown for QCL A but is expected to be lower than 0.1 due to the observed lack of switchable, single mode selectivity (Fig.…”

“…In this way, the emission characteristics of a THz quantum cascade laser (QCL) can be controlled. The THz QCLs we report have novel, integrated aperiodic distributed feedback (ADFB) gratings, providing a multi-band filtering 'signature' [2]. We aim to directly alter the filtering strength and therefore reveal the influence of graphene on the SP mode.…”

Graphene-controlled Terahertz Plasmonic Laser

“…Electronic switching between these digitally selected modes is possible due to both the current (i.e. gain-) dependent longitudinal effective refractive index profile along the FP-LCGH (causing phase shifts between LCGH and non-LCGH waveguide sections), and the bias dependent gain movement 1 .…”

“…Here we achieve mode selection with a longitudinal computer-generated hologram (LCGH). These photonic structures can provide flexible, high-resolution digital mode selection at user defined frequencies by breaking a grating periodicity in a deterministic and systematic way 1 . In this paper, we demonstrate QCLs simultaneously lasing at two digitally selected THz frequencies by incorporating an LCGH into a pre-existing Fabry-Pérot (FP) QCL cavity (e.g.…”

Longitudinal holograms in terahertz lasers: Electronic tuning and frequency control

“…In particular, manipulation of single-mode emission frequency and phase has required complex experimental arrangements 1 . The recent development of discretely tunable THz QCLs with embedded longitudinal computer generated holograms (LCGHs) offers an alternate solution, with electronically controlled, single section devices 2 . In contrast to conventional transverse CGHs which give only directional control over incident light, LCGHs provide high resolution digital control in wavevector (k-) space and may therefore be used for photonic engineering.…”

Digital phase control in a Y-coupled plasmonic terahertz laser system