Pierce C. Qureshi scite author profile

Pierce C. Qureshi

4Publications

13Citation Statements Received

171Citation Statements Given

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170

Affiliations

The Dodd-Walls Centre for Photonic and Quantum Technologies, University of Auckland

Publications

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Soliton linear-wave scattering in a Kerr microresonator

Qureshi

Azeem

et al. 2022

Commun Phys

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The nonlinear scattering of a linear optical wave from a conservative soliton has been widely studied in optical fibers as a mechanism for nonlinear frequency conversion. Here we extend this analysis to consider the scattering of an externally injected probe wave from a dissipative cavity soliton circulating in a Kerr microresonator. We demonstrate, both theoretically and experimentally, that this nonlinear interaction can be harnessed for useful expansion of the soliton frequency comb via the formation of a secondary idler comb. We explore the physics of the process, showing that the phase detuning of the injected probe from a cavity resonance plays a key role in setting the central frequency of the idler comb, thus providing a convenient parameter through which to control the spectral envelope of that comb. Our results elucidate the dynamics that govern the interactions between dissipative Kerr cavity solitons and externally injected probe waves, and could prove useful in the design of future Kerr frequency comb systems by enabling the possibility to provide high-power comb lines in a specified spectral region simply through the injection of a suitably chosen probe.

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Nonlinear Scattering of Dissipative Solitons in a Kerr Microresonator

Qureshi¹,

Ng²,

Azeem³

et al. 2022

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Soliton linear-wave scattering in a Kerr microresonator

Qureshi¹,

Ng²,

Azeem³

et al. 2021

Preprint

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The nonlinear scattering of a linear optical wave from a conservative soliton has been widely studied in optical fibers as a mechanism for nonlinear frequency conversion. Here we extend this analysis to consider the scattering of an externally injected probe wave from a dissipative Kerr cavity soliton circulating in a Kerr microresonator. We demonstrate, both theoretically and experimentally, that this nonlinear interaction can be harnessed for useful expansion of the soliton frequency comb via the formation of a secondary idler comb. We explore the physics of the process, showing that the phase detuning of the injected probe from a cavity resonance plays a key role in setting the central frequency of the idler comb, thus providing a convenient parameter through which to control the spectral envelope of that comb. Our results elucidate the dynamics that govern the interactions between dissipative Kerr cavity solitons and externally injected probe waves, and could prove useful in the design of future Kerr frequency comb systems by enabling the possibility to provide high-power comb lines in a specified spectral region simply through the injection of a suitably chosen probe.

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Intermodal Four-wave Mixing in MgF2 Microresonators Enable Ultra-wide Frequency Generation

Qureshi

Azeem

et al. 2022

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Pierce C. Qureshi

Soliton linear-wave scattering in a Kerr microresonator

Nonlinear Scattering of Dissipative Solitons in a Kerr Microresonator

Soliton linear-wave scattering in a Kerr microresonator

Intermodal Four-wave Mixing in MgF2 Microresonators Enable Ultra-wide Frequency Generation

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