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Artículos de revistas sobre el tema "Lasers à Cascade Interbande"

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Publicado: 1 de junio de 2024
Última modificación: 31 de julio de 2025

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1

Meyer, Jerry, William Bewley, Chadwick Canedy, et al. "The Interband Cascade Laser." Photonics 7, no. 3 (2020): 75. http://dx.doi.org/10.3390/photonics7030075.

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We review the history, development, design principles, experimental operating characteristics, and specialized architectures of interband cascade lasers for the mid-wave infrared spectral region. We discuss the present understanding of the mechanisms limiting the ICL performance and provide a perspective on the potential for future improvements. Such device properties as the threshold current and power densities, continuous-wave output power, and wall-plug efficiency are compared with those of the quantum cascade laser. Newer device classes such as ICL frequency combs, interband cascade vertic
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2

Ning, Chao, Tian Yu, Shuman Liu, et al. "Interband cascade lasers with short electron injector." Chinese Optics Letters 20, no. 2 (2022): 022501. http://dx.doi.org/10.3788/col202220.022501.

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3

Horiuchi, Noriaki. "Interband cascade lasers." Nature Photonics 9, no. 8 (2015): 481. http://dx.doi.org/10.1038/nphoton.2015.147.

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4

Vurgaftman, I., R. Weih, M. Kamp, et al. "Interband cascade lasers." Journal of Physics D: Applied Physics 48, no. 12 (2015): 123001. http://dx.doi.org/10.1088/0022-3727/48/12/123001.

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5

Ryczko, Krzysztof, and Grzegorz Sęk. "Towards unstrained interband cascade lasers." Applied Physics Express 11, no. 1 (2017): 012703. http://dx.doi.org/10.7567/apex.11.012703.

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6

Massengale, J. A., Yixuan Shen, Rui Q. Yang, S. D. Hawkins, and J. F. Klem. "Long wavelength interband cascade lasers." Applied Physics Letters 120, no. 9 (2022): 091105. http://dx.doi.org/10.1063/5.0084565.

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InAs-based interband cascade lasers (ICLs) can be more easily adapted toward long wavelength operation than their GaSb counterparts. Devices made from two recent ICL wafers with an advanced waveguide structure are reported, which demonstrate improved device performance in terms of reduced threshold current densities for ICLs near 11 μm or extended operating wavelength beyond 13 μm. The ICLs near 11 μm yielded a significantly reduced continuous wave (cw) lasing threshold of 23 A/cm2 at 80 K with substantially increased cw output power, compared with previously reported ICLs at similar wavelengt
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7

Yang, Rui Q., Lu Li, Wenxiang Huang, et al. "InAs-Based Interband Cascade Lasers." IEEE Journal of Selected Topics in Quantum Electronics 25, no. 6 (2019): 1–8. http://dx.doi.org/10.1109/jstqe.2019.2916923.

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8

Kim, M., C. L. Canedy, C. S. Kim, et al. "Room temperature interband cascade lasers." Physics Procedia 3, no. 2 (2010): 1195–200. http://dx.doi.org/10.1016/j.phpro.2010.01.162.

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9

Yu, Tian, Chao Ning, Ruixuan Sun, et al. "Strain mapping in interband cascade lasers." AIP Advances 12, no. 1 (2022): 015027. http://dx.doi.org/10.1063/5.0079193.

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10

Holzbauer, Martin, Rolf Szedlak, Hermann Detz, et al. "Substrate-emitting ring interband cascade lasers." Applied Physics Letters 111, no. 17 (2017): 171101. http://dx.doi.org/10.1063/1.4989514.

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11

Trofimov, I. E., C. L. Canedy, C. S. Kim, et al. "Interband cascade lasers with long lifetimes." Applied Optics 54, no. 32 (2015): 9441. http://dx.doi.org/10.1364/ao.54.009441.

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12

Bradshaw, J. L., J. D. Bruno, J. T. Pham, D. E. Wortman, and Rui Q. Yang. "Midinfrared type-II interband cascade lasers." Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 18, no. 3 (2000): 1628. http://dx.doi.org/10.1116/1.591441.

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13

Yang, Rui Q., J. D. Bruno, J. L. Bradshaw, J. T. Pham, and D. E. Wortman. "Interband cascade lasers: progress and challenges." Physica E: Low-dimensional Systems and Nanostructures 7, no. 1-2 (2000): 69–75. http://dx.doi.org/10.1016/s1386-9477(99)00280-5.

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14

Jiang, Yuchao, Lu Li, Zhaobing Tian, et al. "Electrically widely tunable interband cascade lasers." Journal of Applied Physics 115, no. 11 (2014): 113101. http://dx.doi.org/10.1063/1.4865941.

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15

Ryczko, Krzysztof, Janusz Andrzejewski, and Grzegorz Sęk. "Towards Interband Cascade lasers on InP Substrate." Materials 15, no. 1 (2021): 60. http://dx.doi.org/10.3390/ma15010060.

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In this study, we propose designs of an interband cascade laser (ICL) active region able to emit in the application-relevant mid infrared (MIR) spectral range and to be grown on an InP substrate. This is a long-sought solution as it promises a combination of ICL advantages with mature and cost-effective epitaxial technology of fabricating materials and devices with high structural and optical quality, when compared to standard approaches of growing ICLs on GaSb or InAs substrates. Therefore, we theoretically investigate a family of type II, “W”-shaped quantum wells made of InGaAs/InAs/GaAsSb w
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16

Meyer, Jerry R., Chul Soo Kim, Mijin Kim, et al. "Interband Cascade Photonic Integrated Circuits on Native III-V Chip." Sensors 21, no. 2 (2021): 599. http://dx.doi.org/10.3390/s21020599.

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We describe how a midwave infrared photonic integrated circuit (PIC) that combines lasers, detectors, passive waveguides, and other optical elements may be constructed on the native GaSb substrate of an interband cascade laser (ICL) structure. The active and passive building blocks may be used, for example, to fabricate an on-chip chemical detection system with a passive sensing waveguide that evanescently couples to an ambient sample gas. A variety of highly compact architectures are described, some of which incorporate both the sensing waveguide and detector into a laser cavity defined by tw
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17

Zhang Yi, 张一, 杨成奥 Yang Cheng''ao, 尚金铭 Shang Jinming, et al. "Research Progress of Semiconductor Interband Cascade Lasers." Acta Optica Sinica 41, no. 1 (2021): 0114004. http://dx.doi.org/10.3788/aos202141.0114004.

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18

Chen Junjing, 陈君景, 王一丁 Wang Yiding, and 曹峰 Cao Feng. "Mid-Infrared Type-II Interband Cascade Lasers." Laser & Optoelectronics Progress 45, no. 3 (2008): 19–24. http://dx.doi.org/10.3788/lop20084503.0019.

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19

Soibel, A., M. W. Wright, W. Farr, et al. "High-speed operation of interband cascade lasers." Electronics Letters 45, no. 5 (2009): 264. http://dx.doi.org/10.1049/el:20090079.

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20

Vurgaftman, Igor, William W. Bewley, Chadwick L. Canedy, et al. "Mid-IR Type-II Interband Cascade Lasers." IEEE Journal of Selected Topics in Quantum Electronics 17, no. 5 (2011): 1435–44. http://dx.doi.org/10.1109/jstqe.2011.2114331.

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21

Yang, R. Q., J. L. Bradshaw, J. D. Bruno, J. T. Pham, and D. E. Wortman. "Mid-infrared type-II interband cascade lasers." IEEE Journal of Quantum Electronics 38, no. 6 (2002): 559–68. http://dx.doi.org/10.1109/jqe.2002.1005406.

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22

Yang, R. Q., C.-H. Lin, B. H. Yang, et al. "High Power Mid-IR Interband Cascade Lasers." Optics and Photonics News 8, no. 12 (1997): 26. http://dx.doi.org/10.1364/opn.8.12.000026.

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23

Li, Lu, Lihua Zhao, Yuchao Jiang, et al. "Single-waveguide dual-wavelength interband cascade lasers." Applied Physics Letters 101, no. 17 (2012): 171118. http://dx.doi.org/10.1063/1.4764910.

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24

Dallner, Matthias, Julian Scheuermann, Lars Nähle, et al. "InAs-based distributed feedback interband cascade lasers." Applied Physics Letters 107, no. 18 (2015): 181105. http://dx.doi.org/10.1063/1.4935076.

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25

Deng, Yu, Bin-Bin Zhao, Xing-Guang Wang, and Cheng Wang. "Narrow linewidth characteristics of interband cascade lasers." Applied Physics Letters 116, no. 20 (2020): 201101. http://dx.doi.org/10.1063/5.0006823.

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26

Ryczko, Krzysztof, Agata Zielińska, and Grzegorz Sęk. "Interband Cascade Active Region with Ultra-Broad Gain in the Mid-Infrared Range." Materials 14, no. 5 (2021): 1112. http://dx.doi.org/10.3390/ma14051112.

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The optical gain spectrum has been investigated theoretically for various designs of active region based on InAs/GaInSb quantum wells—i.e., a type II material system employable in interband cascade lasers (ICLs) or optical amplifiers operating in the mid-infrared spectral range. The electronic properties and optical responses have been calculated using the eight-band k·p theory, including strain and external electric fields, to simulate the realistic conditions occurring in operational devices. The results show that intentionally introducing a slight nonuniformity between two subsequent stages
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27

Fordyce, J. A. M., D. A. Diaz-Thomas, L. O'Faolain, A. N. Baranov, T. Piwonski, and L. Cerutti. "Single-mode interband cascade laser with a slotted waveguide." Applied Physics Letters 121, no. 21 (2022): 211102. http://dx.doi.org/10.1063/5.0120460.

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The design of a single-mode interband cascade laser (ICL) using a slotted waveguide is presented. This technique was explored as an inexpensive alternative to distributed feedback lasers since standard photolithography can be used in fabrication and complex techniques, such as e-beam lithography, re-growth steps, and/or metal gratings, can be avoided. The design of slotted waveguides must be carefully simulated before fabrication to ensure the efficacy of the photolithography masks with each ICL growth. Limitations and the behavior of key design parameters are discussed. Single-mode emission w
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28

NING Chao, 宁超, 孙瑞轩 SUN Ruixuan, 于天 YU Tian та ін. "带间级联激光器电子注入区优化研究(特邀)". ACTA PHOTONICA SINICA 51, № 2 (2022): 0251208. http://dx.doi.org/10.3788/gzxb20225102.0251208.

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29

Biryukov, A. A., B. N. Zvonkov, S. M. Nekorkin, et al. "Study of interband cascade lasers with tunneling transition." Bulletin of the Russian Academy of Sciences: Physics 71, no. 1 (2007): 96–99. http://dx.doi.org/10.3103/s1062873807010248.

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30

Weih, Robert, Adam Bauer, Martin Kamp, and Sven Höfling. "Interband cascade lasers with AlGaAsSb bulk cladding layers." Optical Materials Express 3, no. 10 (2013): 1624. http://dx.doi.org/10.1364/ome.3.001624.

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31

Meyer, J. R., I. Vurgaftman, R. Q. Yang, and L. R. Ram-Mohan. "Type-II and type-I interband cascade lasers." Electronics Letters 32, no. 1 (1996): 45. http://dx.doi.org/10.1049/el:19960064.

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32

Lin, Yuzhe, Lu Li, Wenxiang Huang, Rui Q. Yang, James A. Gupta, and Wanhua Zheng. "Quasi-Fermi Level Pinning in Interband Cascade Lasers." IEEE Journal of Quantum Electronics 56, no. 4 (2020): 1–10. http://dx.doi.org/10.1109/jqe.2020.3003081.

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33

Myers, Tanya L., Bret D. Cannon, Carolyn S. Brauer, et al. "Gamma irradiation of Fabry–Perot interband cascade lasers." Optical Engineering 57, no. 01 (2017): 1. http://dx.doi.org/10.1117/1.oe.57.1.011016.

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34

Jiang, Yuchao, Lu Li, Rui Q. Yang та ін. "Type-I interband cascade lasers near 3.2 μm". Applied Physics Letters 106, № 4 (2015): 041117. http://dx.doi.org/10.1063/1.4907326.

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35

Borri, Simone, Mario Siciliani de Cumis, Silvia Viciani, Francesco D’Amato, and Paolo De Natale. "Unveiling quantum-limited operation of interband cascade lasers." APL Photonics 5, no. 3 (2020): 036101. http://dx.doi.org/10.1063/1.5139483.

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36

Canedy, C. L., W. W. Bewley, C. S. Kim, et al. "cw midinfrared “W” diode and interband cascade lasers." Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 24, no. 3 (2006): 1613. http://dx.doi.org/10.1116/1.2192533.

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37

Nähle, L., P. Fuchs, M. Fischer, et al. "Mid infrared interband cascade lasers for sensing applications." Applied Physics B 100, no. 2 (2010): 275–78. http://dx.doi.org/10.1007/s00340-010-3899-8.

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38

Zhao, Xuyi, Chunfang Cao, Antian Du, et al. "High Performance Interband Cascade Lasers With AlGaAsSb Cladding Layers." IEEE Photonics Technology Letters 34, no. 5 (2022): 291–94. http://dx.doi.org/10.1109/lpt.2022.3153334.

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39

Zhaobing Tian, R. Q. Yang, T. D. Mishima, M. B. Santos, and M. B. Johnson. "Plasmon-Waveguide Interband Cascade Lasers Near 7.5 $\mu$m." IEEE Photonics Technology Letters 21, no. 21 (2009): 1588–90. http://dx.doi.org/10.1109/lpt.2009.2030686.

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40

Bradshaw, J. L., J. D. Bruno, D. E. Wortman, R. Q. Yang, and J. T. Pham. "Continuous wave operation of type-II interband cascade lasers." IEE Proceedings - Optoelectronics 147, no. 3 (2000): 177–80. http://dx.doi.org/10.1049/ip-opt:20000299.

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41

Sterczewski, Lukasz A., Jonas Westberg, Mahmood Bagheri, et al. "Mid-infrared dual-comb spectroscopy with interband cascade lasers." Optics Letters 44, no. 8 (2019): 2113. http://dx.doi.org/10.1364/ol.44.002113.

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42

Mansour, K., Y. Qiu, C. J. Hill, A. Soibel, and R. Q. Yang. "Mid-infrared interband cascade lasers at thermoelectric cooler temperatures." Electronics Letters 42, no. 18 (2006): 1034. http://dx.doi.org/10.1049/el:20062442.

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43

Du Zhenhui, 杜振辉, 韩瑞炎 Han Ruiyan, 王晓雨 Wang Xiaoyu, 王拴棵 Wang Shuangke, 孟硕 Mengshuo, and 李金义 Li Jinyi. "Interband Cascade Lasers Based Trace Gas Sensing: A Review." Chinese Journal of Lasers 45, no. 9 (2018): 0911006. http://dx.doi.org/10.3788/cjl201845.0911006.

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44

Scheuermann, Julian, Robert Weih, Michael von Edlinger та ін. "Single-mode interband cascade lasers emitting below 2.8 μm". Applied Physics Letters 106, № 16 (2015): 161103. http://dx.doi.org/10.1063/1.4918985.

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45

Jiang, Yuchao, Lu Li, Hao Ye, et al. "InAs-Based Single-Mode Distributed Feedback Interband Cascade Lasers." IEEE Journal of Quantum Electronics 51, no. 9 (2015): 1–7. http://dx.doi.org/10.1109/jqe.2015.2470534.

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46

Zuowei Yin, Yuchao Jiang, Zhaobing Tian, et al. "Far-Field Patterns of Plasmon Waveguide Interband Cascade Lasers." IEEE Journal of Quantum Electronics 47, no. 11 (2011): 1414–19. http://dx.doi.org/10.1109/jqe.2011.2168812.

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47

Ryczko, K., and G. Sęk. "Polarization-independent gain in mid-infrared interband cascade lasers." AIP Advances 6, no. 11 (2016): 115020. http://dx.doi.org/10.1063/1.4968190.

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48

Meyer, Jerry. "Special Section Guest Editorial: Quantum and Interband Cascade Lasers." Optical Engineering 49, no. 11 (2010): 111101. http://dx.doi.org/10.1117/1.3512992.

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49

Hill, Cory J., Baohua Yang, and Rui Q. Yang. "Low-threshold interband cascade lasers operating above room temperature." Physica E: Low-dimensional Systems and Nanostructures 20, no. 3-4 (2004): 486–90. http://dx.doi.org/10.1016/j.physe.2003.08.064.

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50

Canedy, C. L., C. S. Kim, M. Kim, et al. "High-power, narrow-ridge, mid-infrared interband cascade lasers." Journal of Crystal Growth 301-302 (April 2007): 931–34. http://dx.doi.org/10.1016/j.jcrysgro.2006.11.127.

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