Frequency-tunable biphoton generation via spontaneous four-wave mixing

Jiun Shiuan Shiu; Chang Wei Lin; Yu Chiao Huang; Meng Jung Lin; I. Chia Huang; Ting Ho Wu; Pei Chen Kuan; Yong Fan Chen

doi:10.1103/PhysRevA.110.063723

Frequency-tunable biphoton generation via spontaneous four-wave mixing

Jiun Shiuan Shiu, Chang Wei Lin, Yu Chiao Huang, Meng Jung Lin, I. Chia Huang, Ting Ho Wu, Pei Chen Kuan, Yong Fan Chen

Department of Physics

Research output: Contribution to journal › Article › peer-review

Abstract

We present experimental results on tuning biphoton frequency by introducing a detuned coupling field in spontaneous four-wave mixing (SFWM), and examine its impact on the pairing ratio. This tunability is achieved by manipulating the inherent electromagnetically induced transparency (EIT) effect in the double-Λ scheme. Introducing a detuned coupling field degrades the efficiency of EIT-based stimulated four-wave mixing, which in turn reduces the biphoton pairing ratio. However, this reduction can be mitigated by increasing the optical power of the coupling field. Additionally, we observe that blue- and red-detuning the biphoton frequency results in distinct temporal profiles of biphoton wave packets due to phase mismatch. These findings provide insights into the mechanisms of frequency-tunable biphoton generation via SFWM, and suggest potential optimizations for applications in quantum communication and information processing.

Original language	English
Article number	063723
Journal	Physical Review A
Volume	110
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.110.063723
Publication status	Published - 2024 Dec

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.110.063723

Cite this

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title = "Frequency-tunable biphoton generation via spontaneous four-wave mixing",

abstract = "We present experimental results on tuning biphoton frequency by introducing a detuned coupling field in spontaneous four-wave mixing (SFWM), and examine its impact on the pairing ratio. This tunability is achieved by manipulating the inherent electromagnetically induced transparency (EIT) effect in the double-Λ scheme. Introducing a detuned coupling field degrades the efficiency of EIT-based stimulated four-wave mixing, which in turn reduces the biphoton pairing ratio. However, this reduction can be mitigated by increasing the optical power of the coupling field. Additionally, we observe that blue- and red-detuning the biphoton frequency results in distinct temporal profiles of biphoton wave packets due to phase mismatch. These findings provide insights into the mechanisms of frequency-tunable biphoton generation via SFWM, and suggest potential optimizations for applications in quantum communication and information processing.",

author = "Shiu, {Jiun Shiuan} and Lin, {Chang Wei} and Huang, {Yu Chiao} and Lin, {Meng Jung} and Huang, {I. Chia} and Wu, {Ting Ho} and Kuan, {Pei Chen} and Chen, {Yong Fan}",

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AU - Shiu, Jiun Shiuan

AU - Lin, Chang Wei

AU - Huang, Yu Chiao

AU - Lin, Meng Jung

AU - Huang, I. Chia

AU - Wu, Ting Ho

AU - Kuan, Pei Chen

AU - Chen, Yong Fan

PY - 2024/12

Y1 - 2024/12

N2 - We present experimental results on tuning biphoton frequency by introducing a detuned coupling field in spontaneous four-wave mixing (SFWM), and examine its impact on the pairing ratio. This tunability is achieved by manipulating the inherent electromagnetically induced transparency (EIT) effect in the double-Λ scheme. Introducing a detuned coupling field degrades the efficiency of EIT-based stimulated four-wave mixing, which in turn reduces the biphoton pairing ratio. However, this reduction can be mitigated by increasing the optical power of the coupling field. Additionally, we observe that blue- and red-detuning the biphoton frequency results in distinct temporal profiles of biphoton wave packets due to phase mismatch. These findings provide insights into the mechanisms of frequency-tunable biphoton generation via SFWM, and suggest potential optimizations for applications in quantum communication and information processing.

AB - We present experimental results on tuning biphoton frequency by introducing a detuned coupling field in spontaneous four-wave mixing (SFWM), and examine its impact on the pairing ratio. This tunability is achieved by manipulating the inherent electromagnetically induced transparency (EIT) effect in the double-Λ scheme. Introducing a detuned coupling field degrades the efficiency of EIT-based stimulated four-wave mixing, which in turn reduces the biphoton pairing ratio. However, this reduction can be mitigated by increasing the optical power of the coupling field. Additionally, we observe that blue- and red-detuning the biphoton frequency results in distinct temporal profiles of biphoton wave packets due to phase mismatch. These findings provide insights into the mechanisms of frequency-tunable biphoton generation via SFWM, and suggest potential optimizations for applications in quantum communication and information processing.

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Frequency-tunable biphoton generation via spontaneous four-wave mixing

Abstract

All Science Journal Classification (ASJC) codes

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