Demonstration of Entanglement of Electrostatically Coupled Singlet-Triplet Qubits M. D. Shulman

The physics of density matrices (Robert Helling — )

Fault-tolerant quantum computation

... decoupling, noiseless subsystems) can also reduce the damaging effects of noise, though these methods do not suffice by themselves to ensure scalability. [Whaley talk] The elements of quantum fault tolerance guide the design of quantum computer architectures. [Chuang talk] ...

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The Threshold for Fault-Tolerant Quantum Computation

Quantum Connections

... er superposition states create a hugely complex range of possi hub connecting the southeastern U.S. to other regions. Modular networks help to keep the number of interactions ble outcomes. Whereas a classical computer can handle only one possibility at a time, a quantum computer can effectively a ...

SOLID STATE QUANTUM COMPUTING USING SPECTRAL HOLES

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The classical entropy of quantum states=110ptJoint work with Elliott

Measurement-Based Quantum Computation

... ◦ Remember that the CP gates commute with each other, so it does not matter in which order they are applied. That is, C23 could be carried out either earlier or later than C12 and it makes no difference; the graph state in (6) is what results when one has finished applying all the CP gates. ⋆ What w ...

Stationary entanglement and discord for dissipating qubits by local

Postulates of QM, Qubits, Measurements - EECS: www

... seeing the photon at x should be the sum of the probabilities in the two cases. To make the contradiction seem even more stark, notice that there are points x where the detection probability is zero (or small) if both slits are open, even though it is non-zero (large) if either slit is open. How ca ...

Powerpoint 7/27

Quantum information processing with polar molecules

8 - ijssst

... memory makes use of holding data in terms of qubits .i.e. 1 or 0 or critically a superposition of these. Qubits implementation for Q.C is represented by particles having two spin states i.e. “up” written as | 0> and “down” written as |1 >:). They can also be entwined with other qubits which results ...

Realization of the Quantum Toffoli Gate with Trapped Ions

College 10: Quantum computing

... α0 |0i + α1 |1i with α0 , α1 ∈ C, where |α0 |2 + |α1 |2 = 1. At interaction with an observer, the qubit takes on the value 0 with probability |α0 |2 , and the value 1 with probability |α1 |2 . After such an interaction the qubit is no longer in superposition, but in a single state 0 or 1. For simpli ...

Dima Geshkenbian

Quantum process tomography of two-qubit controlled-Z

... been used to successfully demonstrate a quantum algorithm3 and the same 共nonadiabatic兲 scheme has recently been used to create a three-qubit entangled state in transmon qubits.5 To experimentally determine the amplitude and length of the required nonadiabatic Z pulse, we directly measured the cohere ...

Quantum Algorithm to Solve a Maze: Converting Maze Problem into

QUANTUM COMPUTATION Janusz Adamowski

... Complex amplitudes a0 , a1 satisfy the normalization condition |a0 |2 + |a1 |2 = 1 ...

Lecture 20

... Then, the corrupted state is ...

Semiconductor qubits for quantum computation

... CNOT is universal for quantum computation Any multiple qubit logic gate may be composed from CNOT and single qubit gates ...

Semiconductor qubits for quantum computation

... Nielson & Chuang, Quantum Computation and Quantum Information, Cambridge University Press (2000) Loss, D. et al. Spintronics and Quantum Dots, Fortschr. Phys. 48, 965-986, (2000) Knouwenhoven, L.P. Single-shot read-out of an individual electron spin in a quantum dot, Nature 430, 431-435 ...

Experimental realization of Shor`s quantum factoring algorithm using

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Algorithmic cooling

Algorithmic cooling is a phenomenon in quantum computation in which the processing of certain types of computation results in negative entropy and thus a cooling effect.The phenomenon is a result of the connection between thermodynamics and information theory. In so far as information is encoded in physical systems it is subject to the laws of thermodynamics.Certain processes within computation require a change in entropy within the computing system. As data must be stored as some kind of ordered structure (like a localized charge in a capacitor) so the erasure of data by destroying this order must involve an increase in disorder, or entropy. This means that the erasure of data releases heat. This is Landauer's principle.Reversible computing or Adiabatic computing is a theoretical type of computing in which data is never erased, it just changes state or is marked to be ignored. In theory such a system would be able to ""hide"" data without releasing heat.In the case of quantum entangled data, or qubits, it is possible for a computation to result in negative entropy, actually transferring heat out of the computational system, and so cooling it.

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Algorithmic cooling