Optomechanically induced carrier-envelope-phase-dependent effects and their analytical solutions
Date
2017-06-01
Authors
Ma, Jinyong
Gan, Jinghui
Guccione, Giovanni
Campbell, Geoff
Buchler, Benjamin
Lü, Xinyou
Wu, Ying
Lam, Ping Koy
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Volume Title
Publisher
American Physical Society
Abstract
To date, investigations of carrier-envelope-phase (CEP)-dependent effects have been limited to optical pulses with few cycles and high intensity and have not been reported for other types of pulses. Optomechanical systems are shown to have the potential to go beyond these limits. We present an approach using optomechanics to extend the concept of the traditional CEP in the few-cycle regime to mechanical pulses and develop a two-step model to give a physical insight. By adding an auxiliary continuous optical field, we show that a CEP-dependent effect appears even in the multicycle regime of mechanical pulses. We obtain the approximated analytical solutions providing full understanding for these optomechanically induced CEP-dependent effects. In addition, our findings show that one can draw on the optomechanical interaction to revive the CEP-dependent effects on optical pulses with an arbitrary number of cycles and without specific intensity requirements. The effects of CEP, broadly extended to encompass few- and multicycle optical and mechanical pulses, may stimulate a variety of applications in the preparation of a CEP-stabilized pulse, the generation of ultrasonic pulses with a desired shape, the linear manipulation of optical combs, and more.
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Keywords
Optomechanics, Ultrafast phenomena
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Source
Physical Review A - Atomic, Molecular, and Optical Physics
Type
Journal article
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Open Access
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Restricted until
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