Search Results - "Ndome, H."

Erratum: "Quantum-state Dependence of Product Branching Ratios in Vacuum Ultraviolet Photodissociation of N2" (2016, ApJ, 819, 23) by Song, Yu, Gao, Hong, Chang, Yih Chung, Hammoutène, D., Ndome, H., Hochlaf, M., Jackson, William M., Ng, C. Y.

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QUANTUM-STATE DEPENDENCE OF PRODUCT BRANCHING RATIOS IN VACUUM ULTRAVIOLET PHOTODISSOCIATION OF N2 by Song, Yu, Gao, Hong, Chang, Yih Chung, Hammouténe, D, Ndome, H., Hochlaf, M., Jackson, William M., Ng, C. Y.

“…ABSTRACT The branching ratios for the N(4S) + N(2D), N(4S) + N(2P), and N(2D) + N(2D) channels are measured for the photodissociation of in the vacuum…”
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QUANTUM-STATE DEPENDENCE OF PRODUCT BRANCHING RATIOS IN VACUUM ULTRAVIOLET PHOTODISSOCIATION OF N 2 by Song, Yu, Gao, Hong, Chang, Yih Chung, Hammouténe, D, Ndome, H., Hochlaf, M., Jackson, William M., Ng, C. Y.

“…The branching ratios for the N( 4 S) + N( 2 D), N( 4 S) + N( 2 P), and N( 2 D) + N( 2 D) channels are measured for the photodissociation of in the vacuum…”
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Erratum: “Quantum-state Dependence of Product Branching Ratios in Vacuum Ultraviolet Photodissociation of N 2 ” (2016, ApJ, 819, 23) by Song, Yu, Gao, Hong, Chang, Yih Chung, Hammoutène, D., Ndome, H., Hochlaf, M., Jackson, William M., Ng, C. Y.

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Quantum-state dependence of product branching ratios in vacuum ultraviolet photodissociation of N{sub 2} by Song, Yu, Gao, Hong, Chang, Yih Chung, Jackson, William M., Ng, C. Y., Hammouténe, D, Ndome, H., Hochlaf, M.

“…The branching ratios for the N({sup 4}S) + N({sup 2}D), N({sup 4}S) + N({sup 2}P), and N({sup 2}D) + N({sup 2}D) channels are measured for the…”
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QUANTUM-STATE DEPENDENCE OF PRODUCT BRANCHING RATIOS IN VACUUM ULTRAVIOLET PHOTODISSOCIATION OF N sub(2) by Song, Yu, Gao, Hong, Chang, Yih Chung, Hammoutene, D, Ndome, H, Hochlaf, M, Jackson, William M, Ng, C Y

“…The branching ratios for the N( super(4) S) + N( super(2) D), N( super(4) S) + N( super(2) P), and N( super(2) D) + N( super(2) D) channels are measured for…”
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Theoretical investigations of the SH + and LiS + cations by Khadri, F., Ndome, H., Lahmar, S., Lakhdar, Z. Ben, Hochlaf, M.

“…Reliable theoretical data on spectroscopy and spin–orbit matrix elements are computed for the lowest electronic states of SH + and LiS + ions. Accurate…”
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