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Your search keyword '"Gmachl, Claire F."' showing total 354 results
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354 results on '"Gmachl, Claire F."'

1. Hole-Based Stealthy Hyperuniform Semiconductor Metamaterials for the Mid-Infrared

Author

Gallego, Manuel, Kacmoli, Sara, Zhang, Yezhezi, Klatt, Michael A., and Gmachl, Claire F.

Subjects
Physics - Optics
Abstract

Stealthy hyperuniform heterostructures are a novel type of metamaterial with the potential for optical image processing at angles away from normal incidence. These metamaterials show analogous properties to photonic crystals while circumventing the spatial anisotropy often hindering the latter's use. In this paper, we have successfully designed, fabricated, and characterized a hole-based stealthy hyperuniform structure on a quantum cascade layer substrate. The infrared spectral data reveal a sizable gap-midgap ratio of 9.8% for a photonic band gap around $12.0 ~\mu m$ in the form of an enhanced reflection region for increasing incidence angles. The stealthy hyperuniform metamaterial also showed spatial isotropy by its unchanging reflection spectrum for all in-plane rotational angle measurements., Comment: Preprint, 5 pages, 4 figures

Published
2024

2. A Machine Learning Framework for Quantum Cascade Laser Design

Author

Hernandez, Andres Correa and Gmachl, Claire F.

Subjects
Physics - Optics
Abstract

A multi-layer perceptron neural network was used to predict the laser transition figure of merit, a measure of the laser threshold gain, of over 900 million Quantum Cascade Laser designs using only layer thicknesses and the applied electric field as inputs. Designs were generated by randomly altering the layer thicknesses of an initial 10-layer design. Validating the predictions with our 1D Schr\"odinger solver, the predicted values show 5% to 15% error for structures where a laser transition could occur, and 35% to 70% error for structures where there was no laser transition. The algorithm allowed (i) for the identification of high figure of merit structures, (ii) recognition of which layers should be altered to maximize the figure of merit at a given electric field, and (iii) increased the original design figure of merit of 94.7 to 141.2 eV ps \r{A}^2, a 1.5-fold improvement and significant for QC lasers. The computational time for laser design data collection is greatly reduced from 32 hours for 27000 designs using our 1D Schr\"odinger solver on a virtual machine, to 8 hours for 907 million designs using the machine learning algorithm on a laptop computer., Comment: 10 pages, 4 figures

Published
2024

3. Efficient computation of coherent multimode instabilities in lasers using a spectral approach

Author

Kacmoli, Sara, Khan, Saeed A., Gmachl, Claire F., and Türeci, Hakan E.

Subjects
Physics - Optics, Physics - Computational Physics
Abstract

Coherent multimode instabilities are responsible for several phenomena of recent interest in semiconductor lasers, such as the generation of frequency combs and ultrashort pulses. These techonologies have proven disruptive in optical telecommunications and spectroscopy applications. While the standard Maxwell-Bloch equations encompass such complex lasing phenomena, their integration is computationally expensive and offers limited analytical insight. In this paper, we demonstrate an efficient spectral approach to the simulation of multimode instabilities via a quantitative analysis of the instability of single-frequency lasing in ring lasers, referred to as the Lorenz-Haken (LH) instability or the Risken-Nummedal-Graham-Haken (RNGH) instability in distinct parameter regimes. Our approach, referred to as CFTD, uses generally non-Hermitian Constant Flux modes to obtain projected Time Domain equations. CFTD provides excellent agreement with finite-difference integration of the Maxwell-Bloch equations across a wide range of parameters in regimes of non-stationary inversion, including frequency comb formation and spatiotemporal chaos. We also develop a modal linear stability analysis using CFTD to efficiently predict multimode instabilities in lasers. The combination of numerical accuracy, speedup, and semi-analytic insight across a variety of dynamical regimes make the CFTD approach ideal to analyze multimode instabilities in lasers, especially in more complex geometries or coupled laser arrays., Comment: 20 pages, 11 figures, journal paper

Published
2023
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4. Photonic molecule based on coupled ring quantum cascade lasers

Author

Kacmoli, Sara, Sivco, Deborah L., and Gmachl, Claire F.

Subjects
Physics - Optics
Abstract

Photonic molecules - particular systems composed of coupled optical resonators - emulate the behavior of complex physical systems exhibiting discrete energy levels. In this work, we present a novel photonic molecule composed of two strongly coupled, mid-infrared ring quantum cascade lasers. We explore both experimentally and numerically the key features of the photonic molecule such as the energy level splitting of bonding and antibonding supermodes. Due to the large size of the resonators, the energy splitting results in bands containing tens of modes. Each of these modes is furthermore doubly degenerate with respect to the direction of propagation, namely clockwise and counterclockwise. We explore several methods to carefully break these symmetries of the system in a controlled manner by introducing spatial and temporal asymmetries in the pumping scheme of the ring lasers. By employing these techniques, we achieve a high degree of precision in the dynamic control of the photonic molecule. Owing to their inherent suitability for on-chip integration, this new class of devices may enable applications as varied as novel mid-infrared sensors or a rich playground for studying non-Hermitian photonics and quantum optics with quantum cascade lasers., Comment: 8 pages, 5 figures, submitted to journal

Published
2023
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5. Unidirectional mode selection in bistable quantum cascade ring lasers

Author

Kacmoli, Sara, Sivco, Deborah L., and Gmachl, Claire F.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Ideal ring resonators are characterized by travelling-wave counterpropagating modes, but in practice travelling waves can only be realized under unidirectional operation, which has proved elusive. Here, we have designed and fabricated a monolithic quantum cascade ring laser coupled to an active waveguide that allows for robust, deterministic and controllable unidirectional operation. Spontaneous emission injection through the active waveguide enables dynamical switching between the clockwise and counterclockwise states of the ring laser with as little as 1.6% modulation of the electrical input. We show that this behavior stems from a perturbation in the bistable dynamics of the ring laser. In addition to switching and bistability, our novel coupler design for quantum cascade ring lasers offers an efficient mechanism for outcoupling and light detection., Comment: 13 pages, 6 figures, submitted to journal

Published
2022
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6. Three-Dimensional Interface Roughness in Layered Semiconductor Structures and Its Effects on Intersubband Transitions

Author

Song, Alex Y., Bhat, Rajaram, Bouzi, Pierre, Zah, Chung-En, and Gmachl, Claire F.

Subjects
Condensed Matter - Materials Science
Abstract

A general model for treating the effects of three dimensional interface roughness (IFR) in layered semiconductor structures has been derived and experimentally verified. Configurational averaging of the IFR potential produces an effective grading potential in the out-of-plane direction, greatly altering the energy spectrum of the structures. IFR scattering self-energy is also derived for the general case; when IFR is strong, its scattering effect is shown to dominate over phonon interaction and impurity scattering. When applied to intersubband transitions, the theoretical predictions explain the experimental observation of the anomalous energy shift and unusual broadening of the ISB transitions in III-Nitride thin-layered superlattices., Comment: 5 pages, 5 figures

Published
2015
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9. Quantum Cascade Surface-Emitting Photonic Crystal Laser

Author

Colombelli, Raffaele, Srinivasan, Kartik, Troccoli, Mariano, Painter, Oskar, Gmachl, Claire F., Tennant, Donald M., Sergent, A. Michael, Sivco, Deborah L., Cho, Alfred Y., and Capasso, Federico

Published
2003

10. Thermal Properties of Polymer Hole-Transport Layers Influence the Efficiency Roll-off and Stability of Perovskite Light-Emitting Diodes

Author

Zhao, Lianfeng, primary, Astridge, Daniel D., additional, Gunnarsson, William B., additional, Xu, Zhaojian, additional, Hong, Jisu, additional, Scott, Jonathan, additional, Kacmoli, Sara, additional, Al Kurdi, Khaled, additional, Barlow, Stephen, additional, Marder, Seth R., additional, Gmachl, Claire F., additional, Sellinger, Alan, additional, and Rand, Barry P., additional

Published
2023
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19. A compact four-wavelength quantum-cascade laser source

Author

Toor, Fatima, Howard, Scott S., Sivco, Deborah L., and Gmachl, Claire F.

Subjects
Quantum electronics -- Research, Semiconductor lasers -- Research, Wavelength -- Measurement, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A strategy is described for designing a four-wavelength quantum cascade (QC) laser source with different emission wavelengths is operated by using a single current channel. The four-wavelength QC laser source has included two different heterogeneous cascade QC lasers and the threshold current densities of QC lasers are less than a factor of 2 for cavity lengths 3.0 and 3.5 mm, making the four-wavelength QC laser source convenient to use with a single current channel.

Published
2009

20. Temperature dependence of optical gain and loss in [lambda] ~ 8.2-10.2 [mu]m quantum-cascade lasers

Author

Zhijun Liu, Gmachl, Claire F., Liwei Cheng, Fow-Sen Choa, Towner, Fred J., Xiaojun Wang, and Jenyu Fan

Subjects
Optical instruments -- Design and construction, Quantum electronics -- Research, Spectrum analysis -- Usage, Waveguides -- Analysis, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Hakki-Paoli method was used for measuring the temperature-dependent optical gain and waveguide loss for continuous-wave operated quantum-cascade lasers with wavelengths between 8.2 and 10.2 [mu]m up to room temperature. Results suggest a decline in the gain coefficient with the increase in temperature.

Published
2008

21. Thermal and stark-effect roll-over of quantum-cascade lasers

Author

Howard, Scott S., Zhijun Liu, and Gmachl, Claire F.

Subjects
Lasers -- Analysis, Quantum electronics -- Analysis, Stark effect -- Analysis, Laser, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Comprehensive models of quantum-cascade (QC) operation were used for examining the thermal and Stark-effect rollover in QC lasers. Stark effect rollover was observed in devices with low thermal resistance and low injector doping levels before reaching the thermal rollover regime.

Published
2008

29. Spectroscopy and Imaging Using a Mid-IR Quantum Cascade Optical Coherence Tomography (OCT) System

Author

Varnell, Deborah, Zheng, Mei Chai, Chow, Martin, Gmachl, Claire F., Varnell, Deborah, Zheng, Mei Chai, Chow, Martin, and Gmachl, Claire F.

Abstract

We have successfully designed and tested the first working high-resolution, mid-IR OCT system that can simultaneously perform structural and chemical analysis of samples using novel low-coherent, high power QC emitters. © 2016 OSA.

Published
2016

37. High-power spiral cavity quantum cascade superluminescent emitters with a passive loop back facet.

Author

Mei C. Zheng, Yezhezi M. Zhang, Peter Q. Liu, Xiaojun Wang, Jen-Yu Fan, Troccoli, Mariano, and Gmachl, Claire F.

Subjects
SUPERLUMINESCENT diodes, QUANTUM cascade lasers, OPTICAL resonators
Abstract

We report on the experimental demonstration of a high-power (>100 mW) quantum cascade superluminescent (SL) emitter employing a spiral cavity with a passive loop back facet. By replacing the rounded, wet-etched, antireflection coated back facet of a spiral cavity with a passive loop facet, the lasing action was suppressed (i.e., threshold current density increased) due to a decrease in the back facet reflectivity. This type of facet allowed us to achieve a twofold increase in the peak SL power by employing a 16-mm-long spiral cavity. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Suckers for light an optical device has been designed that performs a function exactly opposite to that of a laser. It perfectly absorbs incoming coherent radiation and turns it into thermal or electrical energy

Author

Gmachl, Claire F.

Subjects
Absorption of light -- Research -- Models -- Personal narratives -- Usage, Lasers -- Usage -- Personal narratives -- Models, Laser, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

I enjoy being an experimental laser scientist. With lasers in the lab there is almost never any ambiguity--they either lase or they don't--and trying to set the pumping current by [...]

Published
2010

45. High power (>3 mW) quantum cascade superluminescent emitter

Author

Aung, Nyan Lynn, Yu, Zhouchangwan, Yu, Ye, Yao, Yu, Liu, Peter, Wang, Xiaojun, Fan, Jen-Yu, Troccoli, Mariano, Gmachl, Claire F., Aung, Nyan Lynn, Yu, Zhouchangwan, Yu, Ye, Yao, Yu, Liu, Peter, Wang, Xiaojun, Fan, Jen-Yu, Troccoli, Mariano, and Gmachl, Claire F.

Abstract

We report high power (>3 mW) mid-infrared superluminescent emission around 2100 cm-1 from Quantum Cascade devices. The superluminescent emission shows a Gaussian shape spectrum with FWHM of 80 cm-1. © 2014 OSA.

Published
2014

46. High peak power (>= 10 mW) quantum cascade superluminescent emitter

Author

Aung, Nyan L., Yu, Zhouchangwan, Yu, Ye, Liu, Peter Q., Wang, Xiaojun, Fan, Jen-Yu, Troccoli, Mariano, Gmachl, Claire F., Aung, Nyan L., Yu, Zhouchangwan, Yu, Ye, Liu, Peter Q., Wang, Xiaojun, Fan, Jen-Yu, Troccoli, Mariano, and Gmachl, Claire F.

Abstract

We report room temperature and milliwatt range mid-infrared superluminescent emission at 5 mu m from Quantum Cascade (QC) devices. To achieve high power superluminescence, we utilize an ultrastrong coupling QC laser design, and employ a cavity formed by the combination of a 17 degrees tilted cleaved facet and a wet etched rounded and sloped facet to introduce additional mirror loss. For pulsed mode operation, a 8 mm long and 15 mu m wide device achieves similar to 1.3 mW peak power at 300 K and a 25 mu m wide device with Si3N4 anti-reflection coated rounded facet achieves similar to 10.2 mW peak optical output power at 250 K. (c) 2014 AIP Publishing LLC.

Published
2014

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