Improved L(2)-stabilization theory to compute resonances under multichannel conditions

Salzgeber RF, Manthe U, Weiss T, Schlier C (1996)
CHEMICAL PHYSICS LETTERS 249(3-4): 237-243.

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Salzgeber RF, Manthe U, Weiss T, Schlier C. Improved L(2)-stabilization theory to compute resonances under multichannel conditions. CHEMICAL PHYSICS LETTERS. 1996;249(3-4):237-243.
Salzgeber, R. F., Manthe, U., Weiss, T., & Schlier, C. (1996). Improved L(2)-stabilization theory to compute resonances under multichannel conditions. CHEMICAL PHYSICS LETTERS, 249(3-4), 237-243.
Salzgeber, R. F., Manthe, U., Weiss, T., and Schlier, C. (1996). Improved L(2)-stabilization theory to compute resonances under multichannel conditions. CHEMICAL PHYSICS LETTERS 249, 237-243.
Salzgeber, R.F., et al., 1996. Improved L(2)-stabilization theory to compute resonances under multichannel conditions. CHEMICAL PHYSICS LETTERS, 249(3-4), p 237-243.
R.F. Salzgeber, et al., “Improved L(2)-stabilization theory to compute resonances under multichannel conditions”, CHEMICAL PHYSICS LETTERS, vol. 249, 1996, pp. 237-243.
Salzgeber, R.F., Manthe, U., Weiss, T., Schlier, C.: Improved L(2)-stabilization theory to compute resonances under multichannel conditions. CHEMICAL PHYSICS LETTERS. 249, 237-243 (1996).
Salzgeber, RF, Manthe, Uwe, Weiss, T, and Schlier, C. “Improved L(2)-stabilization theory to compute resonances under multichannel conditions”. CHEMICAL PHYSICS LETTERS 249.3-4 (1996): 237-243.
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