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100 results on '"Dikmelik, Yamac"'

1. Tunable narrow linewidth chip-scale mid-IR laser

Author

Shim, Euijae, Gil-Molina, Andres, Westreich, Ohad, Dikmelik, Yamac, Lascola, Kevin, Gaeta, Alexander L., and Lipson, Michal

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Portable mid-infrared (mid-IR) spectroscopy and sensing applications require widely tunable, narrow linewidth, chip-scale, single-mode sources without sacrificing significant output power. However, no such lasers have been demonstrated beyond 3 $\mu$m due to the challenge of building tunable, high quality-factor (Q) on-chip cavities. We demonstrate a tunable, single-mode mid-IR laser at 3.4 $\mu$m using a high-Q silicon microring cavity with integrated heaters and a multi-mode Interband Cascade Laser (ICL). We show that the multiple longitudinal modes of an ICL collapse into a single frequency via self-injection locking with an output power of 0.4 mW and achieve an oxide-clad high confinement waveguide microresonator with a loaded Q of $2.8\times 10^5$. Using integrated microheaters, our laser exhibits a wide tuning range of 54 nm at 3.4 $\mu$m with 3 dB output power variation. We further measure an upper-bound effective linewidth of 9.1 MHz from the locked laser using a scanning Fabry-Perot interferometer. Our design of a single-mode laser based on a tunable high-Q microresonator can be expanded to quantum-cascade lasers at higher wavelengths and lead to the development of compact, portable, high-performance mid-IR sensors for spectroscopic and sensing applications.

Published
2021

2. Coherent Frequency Combs produced by Self Frequency Modulation in Quantum Cascade Lasers

Author

Khurgin, Jacob, Dikmelik, Yamac, Hugi, Andreas, and Faist, Jerome

Subjects
Physics - Optics
Abstract

One salient characteristic of Quantum Cascade Laser (QCL) is its very shor gain recovery time that so far thwarted the attempts to achieve self-mode locking of the device into a train of single pulses. We show theoretically that four wave mixing, combined with the short gain recovery time causes QCL to operate in the self-frequency-modulated regime characterized by a constant power in time domain and stable coherent comb in the frequency domain.Coherent frequency comb may enable many potential applications of QCL in sensing and measurement.

Published
2013
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6. Near‐Field Thermal Profiling and 3D Anisotropic Thermal Analysis of Quantum Cascade Lasers.

Author

Abbas, Farhat, Daunis, Trey, Pandey, Binay J., Clark, Kevin, Lascola, Kevin, Dikmelik, Yamac, Robbins, Dennis, Hodges, Kimari L., Roodenko, Katy, and Gu, Qing

Subjects
QUANTUM cascade lasers, NEAR-field microscopy, THERMAL analysis
Abstract

The development of a scanning near‐field optical microscopy (SNOM) method with high temperature and spatial resolution to probe the thermal behavior of quantum cascade lasers (QCLs) is reported. Specifically, thermal profiling of InGaAs/InAlAs/InP buried heterostructure (BH) mounted epi‐layer side down QCLs is performed. The findings are verified by 3D anisotropic thermal analysis of QCLs with anisotropic thermal conductivities in the superlattice active region. Good agreement is observed between the simulated and the measured time constants. Within this design, various realistic device configurations, such as overhanging the laser chip on the submount and placing different dielectric coatings on the front facet, are considered. Analytical studies of the steady‐state thermal performance of QCL arrays compared to an isolated QCL are demonstrated for high‐power requirements with minimal thermal damage and future application in spectroscopic devices. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Fiber-coupling efficiency for free-space optical communication through atmospheric turbulence

Author

Dikmelik, Yamac and Davidson, Frederic M.

Subjects
Laser communication systems -- Quality management, Fiber optic networks -- Properties, Fiber optic networks -- Quality management, Laser and infrared communication, Fiber transmission equipment, Astronomy, Physics
Abstract

High-speed free-space optical communication systems have recently used fiber-optic components. The received laser beam in such a system must be coupled into a single-mode fiber at the input of the receiver module. However, propagation through atmospheric turbulence degrades the spatial coherence of a laser beam and limits the fiber-coupling efficiency. We numerically evaluate the fiber-coupling efficiency for laser light distorted by atmospheric turbulence. We also investigate the use of a coherent fiber array as a receiver structure and find that a coherent fiber array that consists of seven subapertures would significantly increase the fiber-coupling efficiency.

Published
2005

13. IR-SNOM on a fork: infrared scanning near-field optical microscopy for thermal profiling of quantum cascade lasers

Author

Pandey, Binay Jung, primary, Clark, Kevin, additional, Abbas, Farhat, additional, Fuchs, E., additional, Lascola, K., additional, Dikmelik, Yamac, additional, Hinojos, David, additional, Hodges, Kimari, additional, Robbins, Dennis, additional, Platkov, M., additional, Katzir, A., additional, Suliman, Ahmed, additional, Spingarn, G., additional, Niguès, A., additional, Veyan, J.-F., additional, Gu, Qing, additional, and Roodenko, Katy, additional

Published
2020
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16. Plane-wave theory of self-doubling optical parametric oscillators

Author

Aytur, Orhan and Dikmelik, Yamac

Subjects
Parametric devices -- Research, Crystal oscillators -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A plane-wave theory was developed to analyze self-doubling optical parametric oscillators (OPO) that use a single nonlinear crystal for both parametric generation and frequency doubling. The plane-wave coupled-mode equations, which can account for the single-pass saturated signal gain and second-harmonic generation, were used to classify the different polarization geometries that can be phase matched for self-doubling OPO. Three self-doubling OPO classifications were identified using the equations.

Published
1998

17. Importance of growth direction in mid-infrared quantum cascade laser.

Author

Bouzi, Pierre M., YenTing Chiu, Deutsch, Christoph, Dikmelik, Yamac, Yu Song, Tokranov, Vadim, Oktyabrsky, Serge, and Gmachl, Claire

Subjects
INFRARED lasers, QUANTUM cascade lasers, POLARITY (Chemistry), DOPING agents (Chemistry), ELECTROLUMINESCENCE
Abstract

We report on the effect of growth direction on the performance of mid-infrared Quantum Cascade lasers. The design used has a symmetric active core, capable of operating under both negative and positive polarities, which allows to test for residual growth asymmetries such as interface roughness and dopant migration. Calculations of scattering lifetimes from interface roughness and ionized impurities suggest a dominant contribution from the former, with devices biased positively averaging ~15% larger broadening and ~50% shorter upper state lifetime than negatively biased devices. Experimental results for positively biased devices show at least 30% larger broadening and 35% lower electroluminescence peak intensity than those biased negatively, in good agreement with the modeling results. [ABSTRACT FROM AUTHOR]

Published
2014
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28. Short Injector Quantum Cascade Lasers

Author

Franz, Kale J., primary, Liu, Peter Q., additional, Raftery, James J. J., additional, Escarra, Matthew D., additional, Hoffman, Anthony J., additional, Howard, Scott Sheridan, additional, Yao, Yu, additional, Dikmelik, Yamac, additional, Wang, Xiaojun, additional, Fan, Jen-Yu, additional, Khurgin, Jacob B., additional, and Gmachl, Claire, additional

Published
2010
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30. Highly power-efficient quantum cascade lasers

Author

Liu, Peter Q., primary, Hoffman, Anthony J., additional, Escarra, Matthew D., additional, Franz, Kale J., additional, Khurgin, Jacob B., additional, Dikmelik, Yamac, additional, Wang, Xiaojun, additional, Fan, Jen-Yu, additional, and Gmachl, Claire F., additional

Published
2010
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