Enhanced cavity for a photoacoustic gas sensor
First Claim
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1. A photoacoustic gas sensor comprising:
- an electromagnetic radiation source configured to emit electromagnetic radiation;
a photoacoustic cell configured to receive a gas sample to be detected, wherein the photoacoustic cell includes an optical element adjacent the photoacoustic cell and configured to transmit at least part of the electromagnetic radiation into the photoacoustic cell, wherein the photoacoustic cell includes a front wall, a reflective back wall, and reflective side walls extending between the front wall and the back wall to collectively define an optical cavity, wherein the optical element is positioned adjacent the front wall and opposite the back wall, wherein the cross-sectional area defined by the side walls increases from the front wall toward the back wall, and wherein the electromagnetic radiation transmitted into the photoacoustic cell first reflects off the reflective back wall of the photoacoustic cell; and
an acoustical detector acoustically coupled to the photoacoustic cell, the acoustical detector configured to detect an acoustic signal that is related to absorption of the electromagnetic radiation by the gas sample in the photoacoustic cell.
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Abstract
Photoacoustic cells for gas sensors are described. In some instances, the photoacoustic cell may be configured to provide an increased internal path length of the light beam in the photoacoustic cell relative to, for example, a conventional cylindrical photoacoustic cell. The photoacoustic cell may be shaped to provide increased internal reflection of the light within the photoacoustic cell, thereby increasing the absorption of the light by a gas to be detected in the photoacoustic cell. One example photoacoustic cell that can provide such increased internal reflection may be a generally conical-shaped.
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Citations
13 Claims
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1. A photoacoustic gas sensor comprising:
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an electromagnetic radiation source configured to emit electromagnetic radiation; a photoacoustic cell configured to receive a gas sample to be detected, wherein the photoacoustic cell includes an optical element adjacent the photoacoustic cell and configured to transmit at least part of the electromagnetic radiation into the photoacoustic cell, wherein the photoacoustic cell includes a front wall, a reflective back wall, and reflective side walls extending between the front wall and the back wall to collectively define an optical cavity, wherein the optical element is positioned adjacent the front wall and opposite the back wall, wherein the cross-sectional area defined by the side walls increases from the front wall toward the back wall, and wherein the electromagnetic radiation transmitted into the photoacoustic cell first reflects off the reflective back wall of the photoacoustic cell; and an acoustical detector acoustically coupled to the photoacoustic cell, the acoustical detector configured to detect an acoustic signal that is related to absorption of the electromagnetic radiation by the gas sample in the photoacoustic cell. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A photoacoustic gas sensor comprising:
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an electromagnetic radiation source configured to emit electromagnetic radiation; a photoacoustic cell configured to receive a gas sample to be detected, wherein the photoacoustic cell includes an optical element adjacent the photoacoustic cell and configured to transmit at least part of the electromagnetic radiation into the photoacoustic cell, wherein the photoacoustic cell includes a front wall, a reflective back wall, and reflective side walls extending between the front wall and the back wall to collectively define an optical cavity, wherein the optical element is positioned adjacent the front wall and opposite the back wall, and wherein the cross-sectional area defined by the side walls increases from the front wall toward the back wall; an acoustical detector acoustically coupled to the photoacoustic cell, the acoustical detector configured to detect an acoustic signal that is related to absorption of the electromagnetic radiation by the gas sample in the photoacoustic cell; wherein the optical element includes a rear side facing toward the back wall of the photoacoustic cell; wherein the rear side of the optical element reflects electromagnetic radiation when an incident angle of the electromagnetic radiation is greater than a threshold angle, and transmits electromagnetic radiation when the incident angle is less than the threshold angle; and wherein the photoacoustic cell is shaped such that at least a majority of the electromagnetic radiation that is transmitted through the optical element and into the cavity of the photoacoustic cell has an incident angle that is greater than the threshold angle for at least a first time that the electromagnetic radiation returns to the rear side of the optical element.
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11. A photoacoustic gas sensor comprising:
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an electromagnetic radiation source configured to emit electromagnetic radiation; a photoacoustic cell configured to receive a gas sample to be detected, wherein the photoacoustic cell includes an optical element adjacent the photoacoustic cell that is configured to transmit at least part of the electromagnetic radiation into the photoacoustic cell, wherein the photoacoustic cell includes a front wall, a reflective back wall, and reflective side walls extending between the front wall and the back wall to collectively define an optical cavity, wherein the optical element is positioned adjacent to and/or forms at least part of the front wall, and wherein the cross-sectional area defined by the side walls increases monotonically from the front wall toward the back wall; and an acoustical detector acoustically coupled to the photoacoustic cell, the acoustical detector configured to detect an acoustic signal that is related to absorption of the electromagnetic radiation by the gas sample in the photoacoustic cell. - View Dependent Claims (12, 13)
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Specification