Pressure Self-shift of the J = 1 ← 0 Line of Carbon Monoxide

Line shift coefficients for five lines of five different isotopomers in the fundamental band of CO in the spectral region near 2058 cm-1 were measured using a three channel lead salt diode laser spectrometer. The study includes the lines P(3) of 13C17O, R(3) of 13C18O, P(9) of 12C18O, P(10) of 13C16

The collisional relaxation of the J = 5 ← 4 rotational transition of CO induced by carbon monoxide, nitrogen, and oxygen has been studied at room temperature. Pressure-broadening parameters were determined as 3.29(2), 2.61(2), and 2.30(2) MHz/Torr for CO, N 2 , and O 2 buffer gases, respectively. Ex

The pressure shifts of the (0,0) and (1,0) bands of the b 1 S / g -X 3 S 0 g transition of oxygen (the so-called A and B bands) have been measured at room temperature in pure oxygen and in nitrogen using high-resolution Fourier transform spectroscopy. The average self-shift in the (1,0) band is 00.0

The forbidden c 3 ⌸-X 1 ⌺ ϩ (0-0) absorption band of carbon monoxide has been reinvestigated under different pressure conditions using the 10.7-m VUV spectrograph at Meudon. Overlap with the allowed C 1 ⌸-X 1 ⌺ ϩ (0-0) band at lower transition energy has been taken into account. We have identified a

Platinum(0)-Catalyzed Carbonylative Lactonization of 5-Hydroxy-1pentyne with Carbon Monoxide in the Presence of Thiols. -The cyclocarbonylation of title compound (I) to give α-methylene-δ-lactone (III) is found to proceed efficiently by using catalytic Pt(PPh 3 ) 4 in the presence of small amounts