Literatura científica selecionada sobre o tema "Interband Cascade Laser (ICL)"
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Artigos de revistas sobre o assunto "Interband Cascade Laser (ICL)"
Meyer, Jerry, William Bewley, Chadwick Canedy, Chul Kim, Mijin Kim, Charles Merritt e Igor Vurgaftman. "The Interband Cascade Laser". Photonics 7, n.º 3 (15 de setembro de 2020): 75. http://dx.doi.org/10.3390/photonics7030075.
Texto completo da fonteHan, Hong, Xumin Cheng, Zhiwei Jia e K. Alan Shore. "Nonlinear Dynamics of Interband Cascade Laser Subjected to Optical Feedback". Photonics 8, n.º 9 (31 de agosto de 2021): 366. http://dx.doi.org/10.3390/photonics8090366.
Texto completo da fonteFordyce, J. A. M., D. A. Diaz-Thomas, L. O'Faolain, A. N. Baranov, T. Piwonski e L. Cerutti. "Single-mode interband cascade laser with a slotted waveguide". Applied Physics Letters 121, n.º 21 (21 de novembro de 2022): 211102. http://dx.doi.org/10.1063/5.0120460.
Texto completo da fonteMeyer, Jerry R., Chul Soo Kim, Mijin Kim, Chadwick L. Canedy, Charles D. Merritt, William W. Bewley e Igor Vurgaftman. "Interband Cascade Photonic Integrated Circuits on Native III-V Chip". Sensors 21, n.º 2 (16 de janeiro de 2021): 599. http://dx.doi.org/10.3390/s21020599.
Texto completo da fonteRyczko, Krzysztof, Janusz Andrzejewski e Grzegorz Sęk. "Towards Interband Cascade lasers on InP Substrate". Materials 15, n.º 1 (22 de dezembro de 2021): 60. http://dx.doi.org/10.3390/ma15010060.
Texto completo da fonteMassengale, J. A., Yixuan Shen, Rui Q. Yang, S. D. Hawkins e J. F. Klem. "Long wavelength interband cascade lasers". Applied Physics Letters 120, n.º 9 (28 de fevereiro de 2022): 091105. http://dx.doi.org/10.1063/5.0084565.
Texto completo da fonteAbajyan, Pavel, Baptiste Chomet, Daniel A. Diaz-Thomas, Mohammadreza Saemian, Martin Mičica, Juliette Mangeney, Jerome Tignon et al. "Mid-Infrared Frequency Combs based on Single Section Interband Cascade Lasers". EPJ Web of Conferences 287 (2023): 07006. http://dx.doi.org/10.1051/epjconf/202328707006.
Texto completo da fonteZhao, Maorong, Guangqiong Xia, Ke Yang, Shuman Liu, Junqi Liu, Qiupin Wang, Jianglong Liu e Zhengmao Wu. "Nonlinear Dynamics of Mid-Infrared Interband Cascade Lasers Subject to Variable-Aperture Optical Feedback". Photonics 9, n.º 6 (10 de junho de 2022): 410. http://dx.doi.org/10.3390/photonics9060410.
Texto completo da fonteLiao, Lihuan, Jingjing Zhang e Daming Dong. "The driver design for N2O gas detection system based on tunable interband cascade laser". E3S Web of Conferences 78 (2019): 03002. http://dx.doi.org/10.1051/e3sconf/20197803002.
Texto completo da fonteSchmitt, Katrin, Mara Sendelbach, Christian Weber, Jürgen Wöllenstein e Thomas Strahl. "Resonant photoacoustic cells for laser-based methane detection". Journal of Sensors and Sensor Systems 12, n.º 1 (25 de janeiro de 2023): 37–44. http://dx.doi.org/10.5194/jsss-12-37-2023.
Texto completo da fonteTeses / dissertações sobre o assunto "Interband Cascade Laser (ICL)"
Abajyan, Pavel. "Génération et contrôle de peignes de fréquences optiques dans les lasers à cascade d'interbande (ICL)". Electronic Thesis or Diss., Sorbonne université, 2024. http://www.theses.fr/2024SORUS024.
Texto completo da fonteOptical frequency combs (OFCs) are coherent light sources that emit a broad spectrum of discrete, perfectly spaced modes, each with an absolute frequency measurable with the precision of an atomic clock.OFCs in the mid-infrared (MIR 3-12 μm) have recently become of great interest to molecular spectroscopy by the presence of strong absorption of molecular vibration and rotation modes in the spectroscopic "fingerprint" region. Nevertheless, the operation of the OFC in the crucial mid-infrared region (MWIR 3-6 μm) remains significantly underdeveloped compared to other parts of the MIR.In this work, we present an in-depth experimental study of a new generation of interband cascade laser (ICL) and their potential for OFCs in MWIR. The thesis provides proof of the OFC regime both by high-frequency beatnote spectroscopy (BN), and by the new technique of temporal reconstruction of the ultrafast dynamics of these lasers, this making it possible to "visualize" the control of the type of operation of the OFC in ICL. In particular, was carried out the optoelectrical characterization of a set of ICLs with a range of geometries, with the aim of studying low group delay dispersion (GDD) ICLs at longer wavelengths than those previously studied: an ICL operating at 3.8 μm with a 2-section architecture, ICLs operating at 4.1 μm, and another generation of ICL operating at a wavelength of 4.2 μm designed with a wide spectral gain. OFC regime formation and GDD are linked and important for understanding the fundamental mechanisms of OFC formation. ICLs were studied using optical and electrical BN spectroscopy. Passive mode locking (PML) (or free running) and active mode locking (AML) were demonstrated. For 2-section ICLs, where the ICL is divided into a long part and a short part for a single cavity, the exact effect of the small section on the BN has been explained: allows to (a) control very finely the intracavity GDD, (b) introducing losses and showing that we converge towards PML behavior.This work then feeds into the case of ICLs operating at longer wavelengths in a single section cavity and where the GDD is expected to be less. In the particular case of the ICLs operating at 4.1 μm, we demonstrate a strong optical BN, which can be injection locked by radio frequency (RF) injection at the round trip frequency of the ICL, showing the first-steps of active modelocking. This injection locking was achieved using a simple single-section laser architecture with very low waveguide dispersion, and showing that adapting the ICL waveguide for RF operation is not a fundamental requirement. In the final part of the thesis, we show the implementation of the "Shifted Wave Interference Fourier Transform Spectroscopy" (SWIFTS) technique, used in two different configurations, to reconstruct the laser's temporal intensity profile at ultrafast timescales. This permits to demonstrate the nature of OFC generated in these ICLs. Indeed, we show that the ICL operates in the frequency modulation (FM) regime when free-running and transits towards an amplitude modulation (AM) regime when actively modelocked. Interestingly, we also show that ICLs can generate short pulses of ~6.7 ps in free-running operation, despite FM operation, and highlight the control of the pulse width and peak intensity via RF injection. This permits to compress the free-running pulses by a factor of 2.3 to obtain sub-3 ps pulses.This work constitutes an important step in the creation and control of OFCs in the MWIR region. The prospects are to broaden the spectral bandwidth of ICLs and generate high-power ultrashort pulses in the MWIR and beyond
O'Hagan, Seamus. "Multi-mode absorption spectroscopy for multi-species and multi-parameter sensing". Thesis, University of Oxford, 2017. https://ora.ox.ac.uk/objects/uuid:6f422683-7c50-47dd-8824-56b4b4ea941d.
Texto completo da fonteHerdt, Andreas Verfasser], Wolfgang [Akademischer Betreuer] Elsäßer e Thomas [Akademischer Betreuer] [Walther. "The laser-as-detector approach exploiting mid-infrared emitting interband cascade lasers: A potential for spectroscopy and communication applications / Andreas Herdt ; Wolfgang Elsäßer, Thomas Walther". Darmstadt : Universitäts- und Landesbibliothek, 2020. http://d-nb.info/1224048725/34.
Texto completo da fonteHerdt, Andreas [Verfasser], Wolfgang [Akademischer Betreuer] Elsäßer e Thomas [Akademischer Betreuer] Walther. "The laser-as-detector approach exploiting mid-infrared emitting interband cascade lasers: A potential for spectroscopy and communication applications / Andreas Herdt ; Wolfgang Elsäßer, Thomas Walther". Darmstadt : Universitäts- und Landesbibliothek, 2020. http://d-nb.info/1224048725/34.
Texto completo da fonteHerdt, Andreas. "The laser-as-detector approach exploiting mid-infrared emitting interband cascade lasers: A potential for spectroscopy and communication applications". Phd thesis, 2020. https://tuprints.ulb.tu-darmstadt.de/17369/1/Dissertation_HerdtAndreas_20201216.pdf.
Texto completo da fonteCapítulos de livros sobre o assunto "Interband Cascade Laser (ICL)"
Chang, Po-Hsiung, Jiun-Ming Li, Chiang Juay Teo, Boo Cheong Khoo, Christopher M. Brophy e Robert G. Wright. "Measurements of Jet A Vapor Concentration Using Interband Cascade Laser". In 31st International Symposium on Shock Waves 1, 385–93. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-319-91020-8_44.
Texto completo da fonteTrabalhos de conferências sobre o assunto "Interband Cascade Laser (ICL)"
Dunayevskiy, Ilya, Jason Kriesel, Ryan Briggs, Chul Soo Kim, Mijin Kim, Chadwick L. Canedy, William W. Bewley, Igor Vurgaftman e Jerry R. Meyer. "Broadly tunable external cavity interband cascade laser (EC-ICL) for hydrocarbon analysis". In Quantum Sensing and Nano Electronics and Photonics XIX, editado por Manijeh Razeghi, Giti A. Khodaparast e Miriam S. Vitiello. SPIE, 2023. http://dx.doi.org/10.1117/12.2647924.
Texto completo da fonteIkyo, Barnabas A., Igor P. Marko, Alf R. Adams, Stephen J. Sweeney, Chadwick L. Canedy, Igor Vurgaftman, Chul Soo Kim, Mijin Kim, William W. Bewley e Jerry R. Meyer. "Temperature sensitivity of mid-infrared type II “W” interband cascade lasers (ICL) emitting at 4.1µm at room temperature". In 2010 IEEE 22nd International Semiconductor Laser Conference (ISLC). IEEE, 2010. http://dx.doi.org/10.1109/islc.2010.5642761.
Texto completo da fonteProkhorov, I., T. Kluge e C. Janssen. "Direct simultaneous spectroscopic measurements of rare and doubly-substituted CO2 isotopologues using interband cascade lasers". In 2018 International Conference Laser Optics (ICLO). IEEE, 2018. http://dx.doi.org/10.1109/lo.2018.8435870.
Texto completo da fonteGluszek, Aleksander, Arkadiusz Hudzikowski, Karol Krzempek, Krzysztof M. Abramski e Frank K. Tittel. "Low energy consumption, compact setup for isotopie analysis of methane at 3007.95 cm−1 and 3008.39 cm−1 using room-temperature CW interband cascade laser (ICL)". In 2017 Conference on Lasers and Electro-Optics Europe (CLEO/Europe) & European Quantum Electronics Conference (EQEC). IEEE, 2017. http://dx.doi.org/10.1109/cleoe-eqec.2017.8086924.
Texto completo da fonteLoparo, Zachary E., Joseph G. Lopez, Sneha Neupane, Subith S. Vasu, William P. Partridge e Konstantin Vodopyanov. "Time-Resolved Measurements of Intermediate Concentrations in Fuel-Rich n-Heptane Oxidation Behind Reflected Shock Waves". In ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/gt2017-63344.
Texto completo da fonteSchwarm, Kevin K., Nicolas Q. Minesi, Barathan Jeevaretanam, Sarah Enayati, Tsu-Chin Tsao e R. Mitchell Spearrin. "Cycle-Resolved Emissions Analysis of Polyfuel Reciprocating Engines via In-Situ Laser Absorption Spectroscopy". In ASME 2022 ICE Forward Conference. American Society of Mechanical Engineers, 2022. http://dx.doi.org/10.1115/icef2022-88543.
Texto completo da fonteBewley, W. W., C. L. Canedy, M. Kim, C. S. Kim, J. A. Nolde, D. C. Larrabee, J. R. Lindle, I. Vurgaftman e J. R. Meyer. "Interband cascade laser progress". In Integrated Optoelectronic Devices 2008, editado por Alexey A. Belyanin e Peter M. Smowton. SPIE, 2008. http://dx.doi.org/10.1117/12.766908.
Texto completo da fonteSpott, A., E. J. Stanton, A. Torres, M. L. Davenport, C. L. Canedy, I. Vurgaftman, M. Kim et al. "Interband cascade laser on silicon". In 2017 IEEE Photonics Conference (IPC) Part II. IEEE, 2017. http://dx.doi.org/10.1109/pc2.2017.8283359.
Texto completo da fonteNähle, L., M. von Edlinger, J. Scheuermann, R. Weih, M. Fischer, J. Koeth, M. Kamp e S. Höfling. "Interband Cascade Laser Based Sensing". In Laser Applications to Chemical, Security and Environmental Analysis. Washington, D.C.: OSA, 2016. http://dx.doi.org/10.1364/lacsea.2016.lw3g.2.
Texto completo da fonteNähle, L., M. von Edlinger, J. Scheuermann, M. Fischer, J. Koeth, R. Weih e M. Kamp. "Interband Cascade Laser Based Sensing". In Bio-Optics: Design and Application. Washington, D.C.: OSA, 2015. http://dx.doi.org/10.1364/boda.2015.ot1c.4.
Texto completo da fonteRelatórios de organizações sobre o assunto "Interband Cascade Laser (ICL)"
Folkes, Patrick. Interband Cascade Laser Photon Noise. Fort Belvoir, VA: Defense Technical Information Center, setembro de 2009. http://dx.doi.org/10.21236/ada507657.
Texto completo da fonteTober, Richard L., Carlos Monroy, Kimberly Olver e John D. Bruno. Processing Interband Cascade Laser for High Temperature CW Operation. Fort Belvoir, VA: Defense Technical Information Center, novembro de 2004. http://dx.doi.org/10.21236/ada428728.
Texto completo da fonte