Citation: Vi. Makarov et Iv. Khmelinskii, Optically detected EPR effect in the (a)over-tilde(3)A(u) triplet state ofthe oxalylfluoride molecule excited to the J '=2 and 4 rotational levels of the 0(0)((A)over-tilde (1)A(u)) vibronic state, CHEM PHYS, 263(2-3), 2001, pp. 359-377
Citation: Vi. Makarov et al., Optically detected EPR effect in the (a)over-tilde(3) A(u) triplet state of the oxalylfluoride molecule excited to the 4(13), 4(23) and 4(31) rotational levels of the 0(0)((A)over-tilde(1) A(u)) vibronic state, MOLEC PHYS, 98(20), 2000, pp. 1659-1667
Authors:
Makarov, VI
Kochubei, SA
Ishchenko, VN
Khmelinskii, IV
Citation: Vi. Makarov et al., S-T conversion induced by external magnetic field in gaseous oxalylfluoride excited to the 7(1)5(1)-level of the (A)over-tilde(1)A(u) state, J CHEM PHYS, 113(1), 2000, pp. 128-135
Authors:
Wen, X
Sikorski, M
Khmelinskii, IV
Verrall, RE
Citation: X. Wen et al., Quenching of excited state pyrene by halothane in poly(oxyethylene)-poly(oxypropylene)-poly(oxyethylene) triblock copolymers, J PHYS CH B, 103(46), 1999, pp. 10092-10097
Authors:
Makarov, VI
Musin, RN
Bogdanchikov, GA
Khmelinskii, IV
Kochubei, SA
Ishchenko, VN
Citation: Vi. Makarov et al., Study of S-T conversion induced by an external magnetic field in gaseous oxalylfluoride excited to the 0(0)-level of the (A)over-tilde(1)A(u) state, CHEM PHYS, 242(1), 1999, pp. 37-67
Authors:
Makarov, VI
Khmelinskii, IV
Kochubei, SA
Ishchenko, VN
Citation: Vi. Makarov et al., Time-resolved experiments on external microwave field action in gaseous oxalylfluoride excited to the 0(0)(0)-band of the mu(1)A(u) state, MOLEC PHYS, 96(8), 1999, pp. 1231-1236
Authors:
Makarov, VI
Khmelinskii, IV
Kochubei, SA
Ishchenko, VN
Citation: Vi. Makarov et al., Magnetic and microwave field effects for single rotational levels of the 0(0)(0)-band of oxalylfluoride in cooled jet conditions, J CHEM PHYS, 111(13), 1999, pp. 5783-5794
Authors:
Ishchenko, VN
Kochubei, SA
Makarov, VI
Khmelinskii, IV
Citation: Vn. Ishchenko et al., On cooling of vibrationally excited benzene molecules in supersonic molecular beams, CHEM P LETT, 299(2), 1999, pp. 227-232
Citation: Vi. Makarov et Iv. Khmelinskii, Magnetic field influence on the photolysis of the gaseous systems. I. Influence on the S-2 yield under the CS2 photolysis excited below the dissociative limit, J PHOTOCH A, 119(2), 1998, pp. 147-150