Contribution to the analysis of the predissociated rovibronic structure of the symmetric isotopomers 16O3 and 18O3 of ozone near 10,400 cm-1): [3A2(3(2)(0)) <-- X1A1(0(0)(0))] and 3B2 <-- X1A1.

The absorption spectrum of ozone was recorded at low temperatures (down to -135 degrees C) by high resolution Fourier transform spectrometry and intra cavity laser absorption spectroscopy (ICLAS) near 10,400 cm-1. A preliminary analysis of the rotational structure of the absorption spectra of 16O3 and 18O3 shows that this spectral region corresponds to a superposition of two different electronic transitions, one with a very broad rotational structure, showing for the first time the asymmetric stretching frequency mode nu3 of the electronic state 3A2, the other formed by a completely diffuse band, probably the 2(1)(0) band of a new transition due to the triplet electronic state 3B2. Predissociation effects induce large broadening of the rotational lines for the transition centered at 10,473 cm-1 identified as the 3(2)(0) band of the 3A2 <-- X1A1 electronic transition. The rotational structure cannot be analyzed directly but instead the band contour method was used to confirm the symmetry of the transition and to estimate the spectroscopic constants for the 16O isotopomer. The origin of the band is at 10,473 +/- 3 cm-1 and the value of the 16O3(3A2) antisymmetric stretching frequency mode is equal to 460 +/- 2 cm-1. We believe that the diffuse band is due to the 3B2 state and is located at about 10,363 +/- 3 cm-1 for 16O3 and 10,354 +/- 3 cm-1 for 18O3. The isotopic rules confirm the different results obtained for 18O3 and 16O3.

Treatment of female urinary incontinence with EMG-controlled biofeedback home training.

The aim of the study was to evaluate the efficacy of pelvic floor training with EMG-controlled home biofeedback in the treatment of stress and mixed incontinence in women. Subjects were recruited from the urodynamic outpatient clinic and performed pelvic muscle training with an EMG-controlled biofeedback device for 20 minutes daily for 6 months. The number of pads used per day, the number of incontinence and urgency episodes, voiding frequency, maximum urethral closure pressure, functional urethral length and pressure/transmission ratio during stress were assessed before and after treatment. Thirty-three patients (13 with stress and 20 with mixed incontinence) completed the study. There was a significant decrease in the number of pads used per day, the number of incontinence and urgency episodes, and the voiding frequency. Twenty-eight patients (85%) reported that they were cured or improved. Urodynamic parameters did not change significantly. It was concluded that home pelvic floor training with EMG-controlled biofeedback is efficient in 85% of patients in alleviating the symptoms of genuine stress and mixed incontinence without causing side effects.

External photoacoustic detection of a trace vapor inside a multimode laser.

We combine highly sensitive intracavity absorption spectroscopy in a multimode laser with external photoacoustic detection, providing high detectivity. Photoacoustic measurements of the intracavity iodine concentration in a Rhodamine 6G laser are compared with simultaneous spectral recordings. They demonstrate slightly improved overall sensitivity and a greatly enhanced dynamic range of 5 orders of magnitude that may be shifted along the absolute scale of absorber density.