"A new hyperbolic equation possessing a zero curvature representation"@en . . . . "Nov\u00E1 hyperbolick\u00E1 rovnice pseudo-sf\u00E9rick\u00E9ho typu"@cs . "S pou\u017Eit\u00EDm p\u0159\u00EDm\u00E9 metody v\u00FDpo\u010Dtu reprezentace nulov\u00E9 k\u0159ivosti jsme na\u0161li d\u0159\u00EDve nezn\u00E1mou hyperbolickou rovnici pseudo-sf\u00E9rick\u00E9ho typu. Nalezen\u00E1 reprezentace nulov\u00E9 k\u0159ivosti nep\u0159ipou\u0161t\u00ED z\u00E1vislost na parametru a nen\u00ED reducibiln\u00ED vzhledem k vlastn\u00ED podalgeb\u0159e $sl_2$."@cs . "A new hyperbolic equation possessing a zero curvature representation" . "463646" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "2"^^ . "A new hyperbolic equation possessing a zero curvature representation" . . . "Pobo\u0159il, Milan" . . "RIV/47813059:19610/06:#0000102!RIV07-MSM-19610___" . . . . . "A new hyperbolic equation possessing a zero curvature representation"@en . "Nov\u00E1 hyperbolick\u00E1 rovnice pseudo-sf\u00E9rick\u00E9ho typu"@cs . . "RIV/47813059:19610/06:#0000102" . "Using a direct procedure of calculation of zero-curvature representations (ZCR), we find a previously unknown hyperbolic equation which possesses an sl2-valued ZCR. This ZCR admits no parameters and is not reducible to a proper subalgebra of sl2. Translated from Fundamental'naya i Prikladnaya Matematika (Fundamental and Applied Mathematics), Vol. 10, No. 1, Geometry of Integrable Models, 2004."@en . . . "[6A0859F95FD1]" . "1"^^ . . "6" . "4484-4485" . "Journal of Mathematical Sciences" . . "S, Z(MSM4781305904)" . "19610" . "1"^^ . "hyperbolic equation; zero curvate"@en . "Using a direct procedure of calculation of zero-curvature representations (ZCR), we find a previously unknown hyperbolic equation which possesses an sl2-valued ZCR. This ZCR admits no parameters and is not reducible to a proper subalgebra of sl2. Translated from Fundamental'naya i Prikladnaya Matematika (Fundamental and Applied Mathematics), Vol. 10, No. 1, Geometry of Integrable Models, 2004." . "136" . "1072-3374" .