. . "Entanglement swapping between multi-qudit systems" . "679435" . . "20" . . "RIV/00216224:14330/01:00004224" . "Entanglement swapping between multi-qudit systems"@en . . "Bouda, Jan" . "11"^^ . "P(GA201/98/0369), Z(MSM 143300001)" . . "14330" . "RIV/00216224:14330/01:00004224!RIV08-MSM-14330___" . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "Bu\u017Eek, Vladim\u00EDr" . . . "We generalize the entanglement swapping scheme originally proposed for two pairs of qubits to an arbitrary number q of systems composed from an arbitrary number mj of qudits. Each of the systems is supposed to be prepared in a maximally entangled state of mj qudits, while different systems are not correlated at all. We show that when a set of qj = 1 aj particles (from each of the q systems aj particles are measured) is subjected to a generalized Bell-type measurement, the resulting set of qj = 1 (mj-aj) particles will collapse into a maximally entangled state." . "[1726AC1B711C]" . "2"^^ . . "Entanglement swapping between multi-qudit systems" . "Entanglement swapping between multi-qudit systems"@cs . "2"^^ . "34" . . . . . "Entanglement swapping between multi-qudit systems"@en . . "4301" . "We generalize the entanglement swapping scheme originally proposed for two pairs of qubits to an arbitrary number q of systems composed from an arbitrary number mj of qudits. Each of the systems is supposed to be prepared in a maximally entangled state of mj qudits, while different systems are not correlated at all. We show that when a set of qj = 1 aj particles (from each of the q systems aj particles are measured) is subjected to a generalized Bell-type measurement, the resulting set of qj = 1 (mj-aj) particles will collapse into a maximally entangled state."@cs . "Journal of Physics A" . "0305-4470" . "entanglement; quantum information"@en . . "We generalize the entanglement swapping scheme originally proposed for two pairs of qubits to an arbitrary number q of systems composed from an arbitrary number mj of qudits. Each of the systems is supposed to be prepared in a maximally entangled state of mj qudits, while different systems are not correlated at all. We show that when a set of qj = 1 aj particles (from each of the q systems aj particles are measured) is subjected to a generalized Bell-type measurement, the resulting set of qj = 1 (mj-aj) particles will collapse into a maximally entangled state."@en . . "Entanglement swapping between multi-qudit systems"@cs .