Extensive study of the linewidth enhancement factor of a distributed feedback quantum cascade laser at ultra-low temperature
Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within the conduction band of semiconductor heterostructures.1 The opportunity given by the broad span of wavelengths that QCLs can achieve, from mid-infrared to terahertz, leads to a wide number of appli...
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| Published in | Proceedings of SPIE, the international society for optical engineering Vol. 10926; pp. 1092619 - 1092619-10 |
|---|---|
| Main Authors | , , , , , |
| Format | Conference Proceeding Journal Article |
| Language | English |
| Published |
SPIE
21.02.2019
SPIE, The International Society for Optical Engineering |
| Series | Quantum Sensing and Nano Electronics and Photonics XVI |
| Subjects | |
| Online Access | Get full text |
| ISBN | 1510624945 9781510624948 |
| ISSN | 0277-786X 1996-756X |
| DOI | 10.1117/12.2510502 |
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| Abstract | Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within the conduction band of semiconductor heterostructures.1 The opportunity given by the broad span of wavelengths that QCLs can achieve, from mid-infrared to terahertz, leads to a wide number of applications such as absorption spectroscopy, optical countermeasures and free-space communications requiring stable single-mode operation with a narrow linewidth and high output power.2 One of the parameters of paramount importance for studying the high-speed and nonlinear dynamical properties of QCLs is the linewidth enhancement factor (LEF). The LEF quantifies the coupling between the gain and the refractive index of the QCL or, in a similar manner, the coupling between the phase and the amplitude of the electrical field.3 Prior work focused on experimental studies of the LEF for pump currents above threshold but without exceeding 12% of the threshold current at 283K4 and 56% of the threshold current at 82K.5 In this work, we use the Hakki-Paoli method6 to retrieve the LEF for current biases below threshold. We complement our findings using the self-mixing interferometry technique5 to obtain LEFs for current biases up to more than 100% of the threshold current. These insets are meaningful to understand the behavior of QCLs, which exhibit a strongly temperature sensitive chaotic bubble when subject to external optical feedback.7 |
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| AbstractList | Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within the conduction band of semiconductor heterostructures.1 The opportunity given by the broad span of wavelengths that QCLs can achieve, from mid-infrared to terahertz, leads to a wide number of applications such as absorption spectroscopy, optical countermeasures and free-space communications requiring stable single-mode operation with a narrow linewidth and high output power.2 One of the parameters of paramount importance for studying the high-speed and nonlinear dynamical properties of QCLs is the linewidth enhancement factor (LEF). The LEF quantifies the coupling between the gain and the refractive index of the QCL or, in a similar manner, the coupling between the phase and the amplitude of the electrical field.3 Prior work focused on experimental studies of the LEF for pump currents above threshold but without exceeding 12% of the threshold current at 283K4 and 56% of the threshold current at 82K.5 In this work, we use the Hakki-Paoli method6 to retrieve the LEF for current biases below threshold. We complement our findings using the self-mixing interferometry technique5 to obtain LEFs for current biases up to more than 100% of the threshold current. These insets are meaningful to understand the behavior of QCLs, which exhibit a strongly temperature sensitive chaotic bubble when subject to external optical feedback.7 Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within theconduction band of semiconductor heterostructures. The opportunity given by the broad span of wavelengthsthat QCLs can achieve, from mid-infrared to terahertz, leads to a wide number of applications such as absorptionspectroscopy, optical countermeasures and free-space communications requiring stable single-mode operationwith a narrow linewidth and high output power. One of the parameters of paramount importance for studyingthe high-speed and nonlinear dynamical properties of QCLs is the linewidth enhancement factor (LEF). TheLEF quanties the coupling between the gain and the refractive index of the QCL or, in a similar manner, thecoupling between the phase and the amplitude of the electrical field. Prior work focused on experimental studiesof the LEF for pump currents above threshold but without exceeding 12% of the threshold current at 283Kand 56% of the threshold current at 82K. In this work, we use the Hakki-Paoli method6 to retrieve the LEF forcurrent biases below threshold. We complement our ndings using the self-mixing interferometry technique toobtain LEFs for current biases up to more than 100% of the threshold current. These insets are meaningful tounderstand the behavior of QCLs, which exhibit a strongly temperature sensitive chaotic bubble when subjectto external optical feedback. |
| Author | Duan, J Herdt, A Elsässer, W Spitz, O Carras, M Grillot, F |
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| DOI | 10.1117/12.2510502 |
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| Editor | Lewis, Jay S Khodaparast, Giti A Razeghi, Manijeh Tournié, Eric |
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| Keywords | Linewidth enhancement factor Alpha factor Quantum cascade lasers Mid-infrared photonics |
| Language | English |
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| Notes | Conference Date: 2019-02-02|2019-02-07 Conference Location: San Francisco, California, United States |
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| PublicationSeriesTitle | Quantum Sensing and Nano Electronics and Photonics XVI |
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| Snippet | Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within the conduction band of semiconductor heterostructures.1... Quantum cascade lasers (QCLs) are optical sources exploiting radiative intersubband transitions within theconduction band of semiconductor heterostructures.... |
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| SubjectTerms | Engineering Sciences Optics Photonic |
| Title | Extensive study of the linewidth enhancement factor of a distributed feedback quantum cascade laser at ultra-low temperature |
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