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Apparatus for the study of the IR multiple-photon resonances of polyatomic molecules via the optothermal technique. I. Description of the apparatus (1990)

Sanna, G. ; Nardi, M. ; Tomassetti, G.

[S.l.] : American Institute of Physics (AIP)

Review of Scientific Instruments 61 (1990), S. 1371-1378

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ISSN: 1089-7623

Source: AIP Digital Archive

Topics: Physics , Electrical Engineering, Measurement and Control Technology

Notes: An apparatus for observing the IR multiple-photon resonances of jet-cooled polyatomic molecules using the optothermal technique is described. For experiments in the spectral region 9/11 μm, a commercially available, high-pressure CO2 laser with an improved wave number resolution (∼0.05 cm−1) is used as the pulsed radiation source. Although a moderate pumping capacity is available, high intensity, supersonic beam pulses are obtained by an expressly developed nozzle source. A superconducting bolometer with a responsivity of ∼2×104 V/W and an effective time constant of (approximately-equal-to)60 ns (for radiation) has been developed to detect the energy flux carried by the irradiated molecular beam. The time-resolved detector signal is then passed through an analogic processor which separates the fast, small amplitude component generated by the irradiated molecules from the larger component due to the unexcited beam. After further amplification, the useful signal is digitized and stored in a computer to be averaged over several repetitions and then time integrated. A detector input NEP of ∼1.5×10−12 W/(Hz)1/2 is obtained in a single laser pulse. This figure can be further reduced by averaging. Complementary information such as the laser fluence, the intensity of the molecular beam pulse, the optoacoustic signal from a reference gas, as well as the time-of-flight of the molecules can be simultaneously monitored. Part I of this article gives a general description of the apparatus, while Part II gives a detailed description of the bolometer and the related electronics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1141192

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Apparatus for the study of the IR multiple-photon resonances of polyatomic molecules via the optothermal technique. II. The superconducting bolometer (1990)

Sanna, G. ; Nardi, M. ; Martinis, L.

[S.l.] : American Institute of Physics (AIP)

Review of Scientific Instruments 61 (1990), S. 1379-1389

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ISSN: 1089-7623

Source: AIP Digital Archive

Topics: Physics , Electrical Engineering, Measurement and Control Technology

Notes: A superconducting (sc) transition edge bolometer has been developed to detect the rovibrational energy gained in a multiple-photon absorption process. In this experiment, the polyatomic molecules previously cooled in a pulsed nozzle beam are irradiated by a pulsed IR laser (see Part I). The bolometer resistive element is a suitably patterned granular aluminium film deposited on a sapphire substrate. When the film is set at its operation point near the center of the sc transition (∼2 K), it exhibits an electrical resistance R∼290 Ω and a temperature derivative (dR/dT)∼2×104 Ω/K. A voltage responsivity R∼2×104 V/W and an effective time constant τe (approximately-equal-to)60 ns (for excitation by radiation) are simultaneously obtained. The high values of the film resistance and of the responsivity allow a useful signal to be directly extracted, with a favorable signal-to-noise ratio, from the cryostat, thus avoiding the use of a cryoamplifier. An unconventional solution is used to compensate, without appreciable noise contamination, the dc voltage produced by the bolometer bias current (∼3×10−4 A). Although rather wide band amplification (0–8.3 MHz) is used to observe the signal produced by the laser irradiation of the molecular beam, in real time and without distortion, an input noise total power Pn (approximately-equal-to)2.5×10−9 W is obtained for a single laser shot. A further reduction of the noise can be obtained by the acquisition and averaging system described in Part I.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1141193

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