Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm
The temperature-dependent phase noise properties of a monolithic two-section mode-locked semiconductor laser are first investigated. This is performed on a GaSb-based quantum well laser emitting at ∼2 μm. Stable mode locking operation with a fundamental repetition frequency of ∼13.3 GHz is achieved...
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sg-ntu-dr.10356-1456962021-01-05T03:47:43Z Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm Li, Xiang Wang, Hong Qiao, Zhongliang Sia, Brian Jia Xu Wang, Wanjun Guo, Xin Zhang, Yu Niu, Zhichuan Tong, Cunzhu Liu, Chongyang School of Electrical and Electronic Engineering Temasek Laboratories @ NTU Engineering::Electrical and electronic engineering Phase Noise Temperature Dependent The temperature-dependent phase noise properties of a monolithic two-section mode-locked semiconductor laser are first investigated. This is performed on a GaSb-based quantum well laser emitting at ∼2 μm. Stable mode locking operation with a fundamental repetition frequency of ∼13.3 GHz is achieved on this laser up to 60 °C. At a fixed temperature, there is no monotonous dependence of integrated jitter on the bias condition. For a given gain current or absorber voltage, there exists a corresponding optimal absorber voltage or gain current, respectively, that minimizes the integrated jitter. More important, the phase noise properties improve obviously at elevated temperatures with the lowest achievable jitter reducing obviously from 3.15 ps at 20 °C to 1.39 ps at 60 °C (100 kHz–1 GHz). We consider that the reason is reduced amplified spontaneous emission noise at high temperatures. This is confirmed by the extracted peak-to-valley ratio of the involved laser modes. We believe that this study provides an important insight into the carrier behaviors and noise performance of mode-locked semiconductor lasers, which is meaningful to their applications especially at high temperatures. National Research Foundation (NRF) Published version This work was supported in part by the National Research Foundation of Singapore (No. NRF-CRP12-2013-04), the National Natural Science Foundation of China (Nos. 61964007 and 61790582), and the Key-Area Research and Development Program of Guangdong Province (No. 2020B0303020001). 2021-01-05T03:47:43Z 2021-01-05T03:47:43Z 2020 Journal Article Li, X., Wang, H., Qiao, Z., Sia, B. J. X., Wang, W., Guo, X., . . . Liu, C. (2020). Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm. Applied Physics Letters, 117(14), 141103-. doi:10.1063/5.0024064 0003-6951 https://hdl.handle.net/10356/145696 10.1063/5.0024064 14 117 en NRF-CRP12-2013-04 Applied Physics Letters © 2020 The Author(s). All rights reserved. This paper was published by AIP in Applied Physics Letters and is made available with permission of The Author(s). application/pdf |
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Engineering::Electrical and electronic engineering Phase Noise Temperature Dependent |
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Engineering::Electrical and electronic engineering Phase Noise Temperature Dependent Li, Xiang Wang, Hong Qiao, Zhongliang Sia, Brian Jia Xu Wang, Wanjun Guo, Xin Zhang, Yu Niu, Zhichuan Tong, Cunzhu Liu, Chongyang Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| description |
The temperature-dependent phase noise properties of a monolithic two-section mode-locked semiconductor laser are first investigated. This is performed on a GaSb-based quantum well laser emitting at ∼2 μm. Stable mode locking operation with a fundamental repetition frequency of ∼13.3 GHz is achieved on this laser up to 60 °C. At a fixed temperature, there is no monotonous dependence of integrated jitter on the bias condition. For a given gain current or absorber voltage, there exists a corresponding optimal absorber voltage or gain current, respectively, that minimizes the integrated jitter. More important, the phase noise properties improve obviously at elevated temperatures with the lowest achievable jitter reducing obviously from 3.15 ps at 20 °C to 1.39 ps at 60 °C (100 kHz–1 GHz). We consider that the reason is reduced amplified spontaneous emission noise at high temperatures. This is confirmed by the extracted peak-to-valley ratio of the involved laser modes. We believe that this study provides an important insight into the carrier behaviors and noise performance of mode-locked semiconductor lasers, which is meaningful to their applications especially at high temperatures. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Li, Xiang Wang, Hong Qiao, Zhongliang Sia, Brian Jia Xu Wang, Wanjun Guo, Xin Zhang, Yu Niu, Zhichuan Tong, Cunzhu Liu, Chongyang |
| format |
Article |
| author |
Li, Xiang Wang, Hong Qiao, Zhongliang Sia, Brian Jia Xu Wang, Wanjun Guo, Xin Zhang, Yu Niu, Zhichuan Tong, Cunzhu Liu, Chongyang |
| author_sort |
Li, Xiang |
| title |
Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| title_short |
Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| title_full |
Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| title_fullStr |
Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| title_full_unstemmed |
Temperature-dependent phase noise properties of a two-section GaSb-based mode-locked laser emitting at 2 μm |
| title_sort |
temperature-dependent phase noise properties of a two-section gasb-based mode-locked laser emitting at 2 μm |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/145696 |
| _version_ |
1688665541276860416 |