Optoacoustic detection using Stark modulation

Michael J. Kavaya; Jack S. Margolis; Michael S. Shumate

doi:10.1364/AO.18.002602

Applied Optics
Vol. 18,
Issue 15,
pp. 2602-2606
(1979)
•https://doi.org/10.1364/AO.18.002602

Optoacoustic detection using Stark modulation

Michael J. Kavaya, Jack S. Margolis, and Michael S. Shumate

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Michael J. Kavaya, Jack S. Margolis, and Michael S. Shumate, "Optoacoustic detection using Stark modulation," Appl. Opt. 18, 2602-2606 (1979)

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Abstract

Stark modulation of the absorbed laser radiation in an optoacoustic detector (or spectrophone) is reported. Measurements were made over a range of total pressure between 760 Torr and 50 Torr. Greatly enhanced molecular discrimination is suggested due to the tuning ability of the Stark-shifted absorption. The background signal obtained by operating in this mode is more than 500 times smaller than that obtained by operating the same optoacoustic detector in the conventional chopped radiation mode. The responsivity of the optoacoustic detector and the absorption coefficient of C₂H₄ are presented as a function of total pressure.

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Total pressure (Torr)	Responsivity (V/W-cm⁻¹)
400	132
350	119
300	107
250	95.5
200	76.0
150	60.2
100	42.3
50	22.5

Total pressure (Torr)	Absorption coefficient K (atm− cm⁻¹)
400	34.6
350	33.1
300	30.9
250	27.9
200	25.4
150	21.7
100	16.6
50	9.8

Total pressure (Torr)	Chopped-mode signal (mV/W)	Stark-mode signal

		(μV)	(μV/W)
760	924	160	390
500	529	706	1810
450	445	842	2360
400	362	1000	2860
350	287	1400	3160
300	208	1500	3450
250	144	1450	3400
200	93.2	1200	2810
150	49.8	880	2020
100	22.0	411	944
50	4.67	105	239

Total pressure (Torr)	Chopped-mode background (mV/W)	Stark-mode background (μV)
760	19.1	14.6
500	18.1	14.6
450	16.9	12.2
400	16.5	14.4
350	14.2	13.8
300	12.3	12.8
250	10.6	12.9
200	8.6	14.7
150	6.9	14.0
100	4.8	13.7
50	2.6	13.5

Total pressure (Torr)	Responsivity (V/W-cm⁻¹)
400	132
350	119
300	107
250	95.5
200	76.0
150	60.2
100	42.3
50	22.5

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Applied Optics