Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO+O2 reaction (2007)
Nilsson, E., Johnson, M. S., Taketani, F., Matsumi, Y., Hurley, M. D., Wallington, T. J.
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO + O2 reaction (2007)
Nilsson, E. J. K., Johnson, M. S., Taketani, F., Matsumi, Y., Hurley, M. D., Wallington, T. J.
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO+O2 reaction (2007)
Nilsson, E., Johnson, M. S., Taketani, F., Matsumi, Y., Hurley, M. D., Wallington, T. J.
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO + O2 reaction (2007)
Nilsson, E. J. K., Johnson, M. S., Taketani, F., Matsumi, Y., Hurley, M. D., Wallington, T. J.
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO + O2 reaction (2007)
M. S. Johnson, F. Taketani, Y. Matsumi, M. D. Hurley, T. J. Wallington
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Atmospheric deuterium fractionation: HCHO and HCDO yields in the CH2DO+O2 reaction (2007)
E. Nilsson, M. S. Johnson, F. Taketani, Y. Matsumi, M. D. Hurley, T. J. Wallington
The formation of formaldehyde via hydrogen atom transfer from the methoxy radical to molecular oxygen is a key step in the atmospheric photochemical oxidation of methane, and in the propagation of...
Koike, M, Jones, N B, Palmer, P I, Matsui, H, Zhao, Y, Kondo, Y, ...
[ 1] Tropospheric carbon monoxide ( CO) was measured throughout 2001 using groundbased Fourier transform IR ( FTIR) spectrometers at Moshiri (44.4 degrees N) and Rikubetsu (43.5 degrees N)...
N. Taniguchi, S. Hayashida, K. Takahashi, Y. Matsumi
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
Taniguchi, N., Hayashida, S., Takahashi, K., Matsumi, Y.
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
Taniguchi, N., Hayashida, S., Takahashi, K., Matsumi, Y.
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
Taniguchi, N., Hayashida, S., Takahashi, K., Matsumi, Y.
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
Taniguchi, N., Hayashida, S., Takahashi, K., Matsumi, Y.
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
N. Taniguchi, S. Hayashida, K. Takahashi, Y. Matsumi
The production yields of excited oxygen O(1D) atoms from the near ultraviolet O3 photolysis are essential quantities for atmospheric chemistry calculations because of its importance as major sources...
Dissociative ionization of ICl studied by ion imaging spectroscopy (2002)
Yamada, H, Taniguchi, N, Kawasaki, M, Matsumi, Y, Gordon, RJ
Dissociative ionization of ICl studied by ion imaging spectroscopy (2002)
Yamada, H, Taniguchi, N, Kawasaki, M, Matsumi, Y, Gordon, RJ
Above-threshold dissociative ionization in the intermediate intensity regime (2001)
Unny, S, Du, Y, Zhu, LC, Gordon, RJ, Sugita, A, Kawasaki, M, ...
Above-threshold effects in the photodissociation and photoionization of iodobenzene (2001)
Unny, S, Du, Y, Zhu, LC, Truhins, K, Gordon, RJ, Sugita, A, ...
Above-threshold dissociative ionization in the intermediate intensity regime (2001)
Unny, S, Du, Y, Zhu, LC, Gordon, RJ, Sugita, A, Kawasaki, M, ...
Effect of molecular bending on the photodissociation of OCS (2000)
Sugita, A, Mashino, M, Kawasaki, M, Matsumi, Y, Bersohn, R, Trott-Kriegeskorte, G, ...
Control of photofragment velocity anisotropy by optical alignment of CH3I (2000)
Sugita, A, Mashino, M, Kawasaki, M, Matsumi, Y, Gordon, RJ, Bersohn, R
Control of photofragment velocity anisotropy by optical alignment of CH3I (2000)
Sugita, A, Mashino, M, Kawasaki, M, Matsumi, Y, Gordon, RJ, Bersohn, R
Effect of molecular bending on the photodissociation of OCS (2000)
Sugita, A, Mashino, M, Kawasaki, M, Matsumi, Y, Bersohn, R, Trott-Kriegeskorte, G, ...
The Schumann-Runge O2 Emission, Following Visible Multiphoton Excitation of NO2 (1983)
Y. Matsumi, Y. Murasawa, K. Obi, I. Tanaka
The Schumann-Runge emission (B3Σu− − X3Σg−) of oxygen was observed in the wavelength range of 220–300 nm, when NO2 was irradiated with a focused visible laser (470–580 nm). The...