Chriszandro Hofmeister: Stabilizer mixed states : Quantum computation with classical computers - Taschenbuch
2013, ISBN: 3639465687
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware - The great physicist Feynman stated 1982 that classical computers are not capable to simula… Mehr…
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware - The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: 'I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world.' However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. 96 pp. Englisch, Books<
Chriszandro Hofmeister: Stabilizer mixed states : Quantum computation with classical computers - Taschenbuch
2013, ISBN: 3639465687
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware -The great physicist Feynman stated 1982 that classical computers are not capable to simulat… Mehr…
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware -The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: 'I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world.' However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. 96 pp. Englisch, Books<
Stabilizer mixed states Chriszandro Hofmeister Author - neues Buch
ISBN: 9783639465686
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exp… Mehr…
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world. However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. Trade Books>Trade Paperback>Science>Physics>Physics, KS Omniscriptum Publishing Core >1<
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Stabilizer mixed states Chriszandro Hofmeister Author - neues Buch
ISBN: 9783639465686
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exp… Mehr…
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world. However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. Trade Books>Trade Paperback>Science>Physics>Physics, AV Akademikerverlag Core >1<
BarnesandNoble.com
new in stock. Versandkosten:zzgl. Versandkosten. Details...
(*) Derzeit vergriffen bedeutet, dass dieser Titel momentan auf keiner der angeschlossenen Plattform verfügbar ist.
Stabilizer mixed states : Quantum computation with classical computers - Taschenbuch
2013, ISBN: 3639465687
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware - The great physicist Feynman stated 1982 that classical computers are not capable to simula… Mehr…
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware - The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: 'I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world.' However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. 96 pp. Englisch, Books<
Stabilizer mixed states : Quantum computation with classical computers - Taschenbuch
2013, ISBN: 3639465687
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware -The great physicist Feynman stated 1982 that classical computers are not capable to simulat… Mehr…
[EAN: 9783639465686], Neubuch, [PU: AV Akademikerverlag], nach der Bestellung gedruckt Neuware -The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: 'I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world.' However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. 96 pp. Englisch, Books<
Stabilizer mixed states Chriszandro Hofmeister Author - neues Buch
ISBN: 9783639465686
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exp… Mehr…
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world. However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. Trade Books>Trade Paperback>Science>Physics>Physics, KS Omniscriptum Publishing Core >1<
Stabilizer mixed states Chriszandro Hofmeister Author - neues Buch
ISBN: 9783639465686
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exp… Mehr…
The great physicist Feynman stated 1982 that classical computers are not capable to simulate quantum systems. A classical computer must keep track of a number of variables which grows exponentially with the dimension of the considered system. In the context of complexity theory this cannot be done with efficient effort. Even for the simulation of a few hundred atoms, the information to be stored would exceed the number of all atoms in the universe. Feynman concluded: I therefore believe it is true that with a suitable class of quantum machines you could imitate any quantum system, including the physical world. However, among quantum mechanical states, the class of so-called stabilizer states overcomes the limitation on classical simulability provided their evolution consists exclusively of Clifford operations. This kind of dynamics can be represented by what is known the stabilizer formalism. Recently computer programs have been developed to simulate quantum systems within this formalism. Feynman would have been surely impressed if he had experienced this by himself. While usually stabilizer states are pure states and their properties well known, this thesis focuses on mixed-state versions obtainable by partial trace over a subsystem of a pure stabilizer state. Trade Books>Trade Paperback>Science>Physics>Physics, AV Akademikerverlag Core >1<
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Detailangaben zum Buch - Stabilizer mixed states Chriszandro Hofmeister Author
EAN (ISBN-13): 9783639465686 ISBN (ISBN-10): 3639465687 Gebundene Ausgabe Taschenbuch Erscheinungsjahr: 2015 Herausgeber: AV Akademikerverlag Core >1
Buch in der Datenbank seit 2016-11-21T10:03:07+01:00 (Vienna) Detailseite zuletzt geändert am 2023-12-23T21:11:16+01:00 (Vienna) ISBN/EAN: 9783639465686
ISBN - alternative Schreibweisen: 3-639-46568-7, 978-3-639-46568-6 Alternative Schreibweisen und verwandte Suchbegriffe: Autor des Buches: hofmeister Titel des Buches: quantum computation, hofmeister
