High-Speed Pulsing Circuit for Continuous Wave Laser Beams

Andrew Murray

High-Speed Pulsing Circuit for Continuous Wave Laser Beams

Photon Science Institute

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

Abstract

Tunable continuous wave (CW) lasers produce the highest optical resolution for pumping and probing atomic and molecular transitions. These lasers adopt sophisticated electronic control of optical components within the cavity to set the wavelength and ensure a narrow bandwidth. The lowcost circuit described here gates a CW laser beam on and off for high resolution timing experiments,
using an electro-optic modulator that acts as a switchable waveplate between linear polarizers. The switch can operate at rates of up to 100 kHz with a minimum pulse width of 650 ns, or it can be configured to deliver laser pulses with widths ≥ 35 ns at lower rates. Multiple laser pulses of equal or non-equal widths can also be delivered within each repetition cycle.

Original language	English
Journal	Measurement, Science and Technology
Publication status	Accepted/In press - 21 Jan 2025

Embargoed Document

laser_EOM_pulsing_paper_070125
Accepted author manuscript, 908 KB
Licence: CC BY
Embargo ends: 22/01/26

(e,gamma,2e): Threshold Spectroscopy - A new method to study collisional excitation of atoms using combined laser and electron beams
Flanagan, K. (PI)
1/12/21 → 30/11/24
Project: Research
'Double-slit' and multiple-path Interference studies from Rb excited and ionized by high-resolution laser radiation
Murray, A. (PI)
1/06/21 → 31/05/24
Project: Research

Cite this

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abstract = "Tunable continuous wave (CW) lasers produce the highest optical resolution for pumping and probing atomic and molecular transitions. These lasers adopt sophisticated electronic control of optical components within the cavity to set the wavelength and ensure a narrow bandwidth. The lowcost circuit described here gates a CW laser beam on and off for high resolution timing experiments, using an electro-optic modulator that acts as a switchable waveplate between linear polarizers. The switch can operate at rates of up to 100 kHz with a minimum pulse width of 650 ns, or it can be configured to deliver laser pulses with widths ≥ 35 ns at lower rates. Multiple laser pulses of equal or non-equal widths can also be delivered within each repetition cycle.",

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AB - Tunable continuous wave (CW) lasers produce the highest optical resolution for pumping and probing atomic and molecular transitions. These lasers adopt sophisticated electronic control of optical components within the cavity to set the wavelength and ensure a narrow bandwidth. The lowcost circuit described here gates a CW laser beam on and off for high resolution timing experiments, using an electro-optic modulator that acts as a switchable waveplate between linear polarizers. The switch can operate at rates of up to 100 kHz with a minimum pulse width of 650 ns, or it can be configured to deliver laser pulses with widths ≥ 35 ns at lower rates. Multiple laser pulses of equal or non-equal widths can also be delivered within each repetition cycle.

M3 - Article

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JO - Measurement, Science and Technology

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High-Speed Pulsing Circuit for Continuous Wave Laser Beams

Abstract

Embargoed Document

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Projects

(e,gamma,2e): Threshold Spectroscopy - A new method to study collisional excitation of atoms using combined laser and electron beams

'Double-slit' and multiple-path Interference studies from Rb excited and ionized by high-resolution laser radiation

Cite this