qm1 - Michael Nielsen
... “Perhaps […] we need a mathematical theory of quantum automata. […] the quantum state space has far greater capacity than the classical one: […] in the quantum case we get the exponential growth […] the quantum behavior of the system might be much more complex than its ...
... “Perhaps […] we need a mathematical theory of quantum automata. […] the quantum state space has far greater capacity than the classical one: […] in the quantum case we get the exponential growth […] the quantum behavior of the system might be much more complex than its ...
Quantum mechanics is the theory that we use to describe the
... Quantum mechanics is also an inherently probabilistic theory, in that there exists uncertainty at the most fundamental level when we try to measure any value, or observable, of a system. This is unlike classical and relativistic theories, where everything exists with a precise and definite values, a ...
... Quantum mechanics is also an inherently probabilistic theory, in that there exists uncertainty at the most fundamental level when we try to measure any value, or observable, of a system. This is unlike classical and relativistic theories, where everything exists with a precise and definite values, a ...
The Future of Computer Science
... A. 2004: Suppose that in addition to the quantum state, there were also “hidden variables” recording the “true” locations of particles (as in Bohmian mechanics). Then if you could sample the hidden variables’ entire histories, you could solve the collision problem in O(1) queries—beyond what a “gard ...
... A. 2004: Suppose that in addition to the quantum state, there were also “hidden variables” recording the “true” locations of particles (as in Bohmian mechanics). Then if you could sample the hidden variables’ entire histories, you could solve the collision problem in O(1) queries—beyond what a “gard ...
Q-bit based on Cooper Pair Transistor
... In contrast to all modern electronic circuits, which obey the laws of classical electrodynamics, the electrodynamics of small capacitance Josephson junction circuits is quantum electrodynamics. The time dependence of the circuit variables, the flux and charge at the various circuit nodes, is describ ...
... In contrast to all modern electronic circuits, which obey the laws of classical electrodynamics, the electrodynamics of small capacitance Josephson junction circuits is quantum electrodynamics. The time dependence of the circuit variables, the flux and charge at the various circuit nodes, is describ ...
Fall 2010
... be necessary for you to completely achieve the course goals. Attendance and participation will not be graded directly; however, they are important to the purposes of this course and therefore your active presence in class is expected. Due to the limited time of the schedule, there will be little tim ...
... be necessary for you to completely achieve the course goals. Attendance and participation will not be graded directly; however, they are important to the purposes of this course and therefore your active presence in class is expected. Due to the limited time of the schedule, there will be little tim ...
Quantum Field Theory
... Quantum mechanics Time evolution of the state of the system is described by Schrödinger equation: ...
... Quantum mechanics Time evolution of the state of the system is described by Schrödinger equation: ...
Is Anything Real? Have Physicists Lost Their Grip on Reality?
... R_04 Science Wars: What Scientists Know and How They Know It, by Steven L. Goldman, Course No. 1235, marketed by The Teaching Company. R_05 Quantum Mechanics: The Physics of the Microscopic World, by Benjamin Schumacher, Course 1240, marketed by the Teaching Company. R_06 The Age of Entanglement: Wh ...
... R_04 Science Wars: What Scientists Know and How They Know It, by Steven L. Goldman, Course No. 1235, marketed by The Teaching Company. R_05 Quantum Mechanics: The Physics of the Microscopic World, by Benjamin Schumacher, Course 1240, marketed by the Teaching Company. R_06 The Age of Entanglement: Wh ...
Ian Walmsley
... • H is a Hadamard transformation and X a bit-flip operation • ga is a controlled-NOT transformation acting on all bits simultaneously. • The top n qubits are measured at the end of the circuit. Since nowhere are the qubits entangled, they can be replaced by the modes of an optical field. ...
... • H is a Hadamard transformation and X a bit-flip operation • ga is a controlled-NOT transformation acting on all bits simultaneously. • The top n qubits are measured at the end of the circuit. Since nowhere are the qubits entangled, they can be replaced by the modes of an optical field. ...
