Probing the ultrafast gain and refractive index dynamics of a VECSEL
Typically, strong gain saturation and gain dynamics play a crucial role in semiconductor laser mode-locking. While there have been several investigations of the ultrafast gain dynamics in vertical-external-cavity surface-emitting lasers (VECSELs), little is known about the associated refractive inde...
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| creator | Kriso, Christian Bergmeier, Tim Giannini, Nathan Albrecht, Alexander Sheik-Bahae, Mansoor Benis, Sepehr Faryadras, Sanaz Eric Van Stryland Hagan, David Koch, Martin Gerson Mette Rahimi-Iman, Arash |
| description | Typically, strong gain saturation and gain dynamics play a crucial role in semiconductor laser mode-locking. While there have been several investigations of the ultrafast gain dynamics in vertical-external-cavity surface-emitting lasers (VECSELs), little is known about the associated refractive index changes. Yet, such refractive index changes do not only have a profound impact on the pulse formation process leading to self-phase modulation, which needs to be compensated by dispersion, but they are also of particular relevance for assessing the feasibility of Kerr-lens mode-locking of VECSELs. Here, we measure both refractive index as well as gain dynamics of a VECSEL chip using the ultrafast beam deflection method. We find that, in contrast to the gain dynamics, the refractive index dynamics is dominated by an instantaneous (\(\sim\)100~fs) and a very slow component (\(\sim\)100~ps). The time-resolved measurement of nonlinear refraction allows us to predict a pulse-length dependent, effective nonlinear refractive index \(n_{2,eff}\), which is shown to be negative and in the order of \(10^{-16}\) \(m^2/W\) for short pulse lengths (\(\sim\)100~fs) . It becomes positive for large excitation fluences and large pulse lengths (few ps). These results agree with some previous reports of self-mode-locked VECSELs for which the cavity design and pulse properties determine sign and strength of the nonlinear refractive index when assuming Kerr-lens mode-locking. |
| doi_str_mv | 10.48550/arxiv.2106.13664 |
| format | Article |
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While there have been several investigations of the ultrafast gain dynamics in vertical-external-cavity surface-emitting lasers (VECSELs), little is known about the associated refractive index changes. Yet, such refractive index changes do not only have a profound impact on the pulse formation process leading to self-phase modulation, which needs to be compensated by dispersion, but they are also of particular relevance for assessing the feasibility of Kerr-lens mode-locking of VECSELs. Here, we measure both refractive index as well as gain dynamics of a VECSEL chip using the ultrafast beam deflection method. We find that, in contrast to the gain dynamics, the refractive index dynamics is dominated by an instantaneous (\(\sim\)100~fs) and a very slow component (\(\sim\)100~ps). The time-resolved measurement of nonlinear refraction allows us to predict a pulse-length dependent, effective nonlinear refractive index \(n_{2,eff}\), which is shown to be negative and in the order of \(10^{-16}\) \(m^2/W\) for short pulse lengths (\(\sim\)100~fs) . It becomes positive for large excitation fluences and large pulse lengths (few ps). These results agree with some previous reports of self-mode-locked VECSELs for which the cavity design and pulse properties determine sign and strength of the nonlinear refractive index when assuming Kerr-lens mode-locking.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2106.13664</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Laser mode locking ; Laser modes ; Lenses ; Phase modulation ; Physics - Optics ; Refractivity ; Semiconductor lasers ; Short pulses ; Surface emitting lasers</subject><ispartof>arXiv.org, 2021-06</ispartof><rights>2021. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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While there have been several investigations of the ultrafast gain dynamics in vertical-external-cavity surface-emitting lasers (VECSELs), little is known about the associated refractive index changes. Yet, such refractive index changes do not only have a profound impact on the pulse formation process leading to self-phase modulation, which needs to be compensated by dispersion, but they are also of particular relevance for assessing the feasibility of Kerr-lens mode-locking of VECSELs. Here, we measure both refractive index as well as gain dynamics of a VECSEL chip using the ultrafast beam deflection method. We find that, in contrast to the gain dynamics, the refractive index dynamics is dominated by an instantaneous (\(\sim\)100~fs) and a very slow component (\(\sim\)100~ps). The time-resolved measurement of nonlinear refraction allows us to predict a pulse-length dependent, effective nonlinear refractive index \(n_{2,eff}\), which is shown to be negative and in the order of \(10^{-16}\) \(m^2/W\) for short pulse lengths (\(\sim\)100~fs) . It becomes positive for large excitation fluences and large pulse lengths (few ps). 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The time-resolved measurement of nonlinear refraction allows us to predict a pulse-length dependent, effective nonlinear refractive index \(n_{2,eff}\), which is shown to be negative and in the order of \(10^{-16}\) \(m^2/W\) for short pulse lengths (\(\sim\)100~fs) . It becomes positive for large excitation fluences and large pulse lengths (few ps). These results agree with some previous reports of self-mode-locked VECSELs for which the cavity design and pulse properties determine sign and strength of the nonlinear refractive index when assuming Kerr-lens mode-locking.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2106.13664</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Laser mode locking Laser modes Lenses Phase modulation Physics - Optics Refractivity Semiconductor lasers Short pulses Surface emitting lasers |
| title | Probing the ultrafast gain and refractive index dynamics of a VECSEL |
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