Tunable graded cavity resonator integrated grating filters

Augé, Sylvain; Monmayrant, Antoine; Pelloquin, Sylvain; Doucet, Jean‐Baptiste; Gauthier-Lafaye, Olivier

doi:10.1364/oe.25.012415

Cited by 9 publications

(5 citation statements)

References 12 publications

(12 reference statements)

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“…We think that this configuration can be interesting when compared to the CRIGF used in normal incidence, because in the R − T direction, there is no Fabry-Perot interferences due to the substrate thickness, which are parasitic signals for filtering applications (for instance, the oscillations on the fig. 2 of [17] are due to the interferences coming from the thick substrate).…”

Section: Control Of the Emission Direction Of The Crigfmentioning

confidence: 99%

Quasi-total backward reflection with a CRIGF under oblique incidence

et al. 2020

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We report on a numerical study of Cavity Resonator Integrated Grating Filters (a grating coupler flanked with two distributed Bragg reflectors) under oblique incidence. At resonance, the diffracted energy is divided equally in four outcoupling directions, versus two directions only for the CRIGF under normal incidence and for the infinite grating coupler. We provide a simple model to demonstrate this fact. Then, we propose a configuration for which all the diffracted energy is reflected backward with respect to the direction of the incident beam, thus realizing a reflection filter free from specular reflectivity.

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Section: Control Of the Emission Direction Of The Crigfmentioning

confidence: 99%

Quasi-total backward reflection with a CRIGF under oblique incidence

et al. 2020

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“…3). Should the targeted Q-factor exceed 16000 [8], an improvement in spatial inhomogeneity would be required. to 80°C, the resonance is shown to shift over a 2.31-nm span, a range ~2.4-time the filter bandwidth (see Fig.…”

Section: Characterizationmentioning

confidence: 99%

“…The only viable solutions therefore consist in altering the CRIGF micro-cavity physiccal properties either via its geometry or its constitutive set of refractive indices. To that extent, CRIGFs with spatially-graded grating structures have been successfully demonstrated [8] and used to introduce broadband tuning of ECDLs [9]. Nevertheless, to gain in laser stability and packaged module compactness, it is desirable to devise, demonstrate and implement systems exploiting displacement-free tunable filters.…”

Section: Introductionmentioning

confidence: 99%

Thermally-tunable cavity resonator-integrated guided-mode resonance filters

Calvez¹,

Monmayrant²,

Gauthier-Lafaye³

2019

OSA Continuum

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We report the fabrication of Cavity Resonator-Integrated Guided-mode Resonance Filters (CRIGFs) using a hybrid lithium-niobate/silicon oxynitride technological platform that allows the exploitation of lithium niobate advantageous material properties while maintaining standard nanoprocessing techniques. The beneficial use of this approach is illustrated with the first demonstration of thermal tuning of a CRIGF.

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“…Basically, the GC act as an input grating coupler into a cavity mode localized in the waveguide and delimited by the 2 DBRs, resulting in a sharp reflectance peak at the resonant wavelength which is fixed by the grating period Λ GC . These filters exhibit highly interesting properties, such as narrow-bandwidth reflectivity with high angular tolerance [4], gradient-based tunability [5] and have already been used to setup external cavities for near infrared laser diodes [6]. The paper is organized as follow.…”

Section: Introductionmentioning

confidence: 99%

Extended cavity quantum cascade laser with cavity resonator integrated grating filter

Augé¹,

Gluchko²,

Fehrembach³

et al. 2020

Opt. Express

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We report on an extended cavity quantum cascade laser based on a cavity resonator integrated grating filter (CRIGF) that acts as both cavity end-reflector and spectral selector. Stable, mode-hop free, single-mode emission around 2150 cm −1 is obtained over large injection current ranges (more than 50 mA) with a typical threshold around 290 mA. A digital frequency tuning over more than 65 cm −1 is obtained by changing the periodicity of the CRIGF ending the extended cavity.

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Tunable graded cavity resonator integrated grating filters

Cited by 9 publications

References 12 publications

Quasi-total backward reflection with a CRIGF under oblique incidence

Quasi-total backward reflection with a CRIGF under oblique incidence

Thermally-tunable cavity resonator-integrated guided-mode resonance filters

Extended cavity quantum cascade laser with cavity resonator integrated grating filter

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