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Composite acousto-optical modulation

Liu, Ruijuan ; Ma, Yudi ; Ji, Lingjing ; [et al.]

Optica Publishing Group ; 2022

In: Optics Express Vol. 30, No. 15 ( 2022-07-18), p. 27780-

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In: Optics Express, Optica Publishing Group, Vol. 30, No. 15 ( 2022-07-18), p. 27780-

Abstract: We propose a composite acousto-optical modulation (AOM) scheme for wide-band, efficient modulation of CW and pulsed lasers. We show that by adjusting the amplitudes and phases of weakly-driven daughter AOMs, diffraction beyond the Bragg condition can be achieved with exceptional efficiencies. Furthermore, by imaging pairs of AOMs with opposite directions of sound-wave propagation, high contrast switching of output orders can be achieved at the driving radio frequency (rf) limit, thereby enabling efficient bidirectional routing of a synchronized mode-locked laser. Here we demonstrate a simplest example of such scheme with a double-AOM setup for efficient diffraction across an octave of rf bandwidth, and for routing a mode-locked pulse train with up to f rep = 400 MHz repetition rate. We discuss extension of the composite scheme toward multi-path routing and time-domain multiplexing, so as to individually shape each pulses of ultrafast lasers for novel quantum control applications.

Type of Medium: Online Resource

ISSN: 1094-4087

URL: Article

DOI: 10.1364/OE.445719

Language: English

Publisher: Optica Publishing Group

Publication Date: 2022

detail.hit.zdb_id: 1491859-6

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Precise pulse shaping for quantum control of strong optical transitions

Ma, Yudi ; Huang, Xing ; Wang, Xiaoqing ; [et al.]

Optica Publishing Group ; 2020

In: Optics Express Vol. 28, No. 12 ( 2020-06-08), p. 17171-

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In: Optics Express, Optica Publishing Group, Vol. 28, No. 12 ( 2020-06-08), p. 17171-

Abstract: Advances of quantum control technology have led to nearly perfect single-qubit control of nuclear spins and atomic hyperfine ground states. In contrast, quantum control of strong optical transitions, even for free atoms, are far from being perfect. Developments of such quantum control appears to be limited by available laser technology for generating isolated, sub-nanosecond optical waveforms with 10's of GHz programming bandwidth. Here we propose a simple and robust method for the desired pulse shaping, based on precisely stacking multiple delayed picosecond pulses. Our proof-of-principal demonstration leads to arbitrarily shapeable optical waveforms with 30 GHz bandwidth and 100 ps duration. We confirm the stability of the waveforms by interfacing the pulses with laser-cooled atoms, resulting in “super-resolved” spectroscopic signals. This pulse shaping method may open exciting perspectives in quantum optics, and for fast laser cooling and atom interferometry with mode-locked lasers.

Type of Medium: Online Resource

ISSN: 1094-4087

URL: Article

DOI: 10.1364/OE.389700

Language: English

Publisher: Optica Publishing Group

Publication Date: 2020

detail.hit.zdb_id: 1491859-6

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Wavelength-limited optical accordion

Tao, Junheng ; Wang, Yuzhuo ; He, Yizun ; [et al.]

Optica Publishing Group ; 2018

In: Optics Express Vol. 26, No. 11 ( 2018-05-28), p. 14346-

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In: Optics Express, Optica Publishing Group, Vol. 26, No. 11 ( 2018-05-28), p. 14346-

Type of Medium: Online Resource

ISSN: 1094-4087

URL: Article

DOI: 10.1364/OE.26.014346

Language: English

Publisher: Optica Publishing Group

Publication Date: 2018

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Spectroscopic atomic sample plane localization for precise digital holography

Zhao, Jian ; Wang, Yuzhuo ; Huang, Xing ; [et al.]

Optica Publishing Group ; 2023

In: Optics Express Vol. 31, No. 6 ( 2023-03-13), p. 9448-

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In: Optics Express, Optica Publishing Group, Vol. 31, No. 6 ( 2023-03-13), p. 9448-

Abstract: In digital holography, the coherent scattered light fields can be reconstructed volumetrically. By refocusing the fields to the sample planes, absorption and phase-shift profiles of sparsely distributed samples can be simultaneously inferred in 3D. This holographic advantage is highly useful for spectroscopic imaging of cold atomic samples. However, unlike e.g. biological samples or solid particles, the quasi-thermal atomic gases under laser-cooling are typically featureless without sharp boundaries, invalidating a class of standard numerical refocusing methods. Here, we extend the refocusing protocol based on the Gouy phase anomaly for small phase objects to free atomic samples. With a prior knowledge on a coherent spectral phase angle relation for cold atoms that is robust against probe condition variations, an “out-of-phase” response of the atomic sample can be reliably identified, which flips the sign during the numeric back-propagation across the sample plane to serve as the refocus criterion. Experimentally, we determine the sample plane of a laser-cooled 39 K gas released from a microscopic dipole trap, with a δz ≈ 1 µ m ≪ 2 λ p /NA 2 axial resolution, with a NA=0.3 holographic microscope at λ p = 770 nm probe wavelength.

Type of Medium: Online Resource

ISSN: 1094-4087

URL: Article

DOI: 10.1364/OE.477878

Language: English

Publisher: Optica Publishing Group

Publication Date: 2023

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