Quantum dots
Quantum dots

Evolving Quantum circuits - Portland State University
Evolving Quantum circuits - Portland State University

Quantum Teleportation Between Discrete and Continuous
Quantum Teleportation Between Discrete and Continuous

Phys. Rev. Lett
Phys. Rev. Lett

... map equal to F ¼ 0:950  0:015. This bidirectional spinOAM interface allows the extension to OAM of many protocols currently only possible with polarization. For example, the realization of a two-photon C-NOT gate for OAM states can be obtained by exploiting a C-NOT for  states. As a further consid ...
жгед symbol of the згедй из "! user is denoted by # $иж! , 5 $87!9 A
жгед symbol of the згедй из "! user is denoted by # $иж! , 5 $87!9 A

Quantum Biology at the Cellular Level
Quantum Biology at the Cellular Level

High-Fidelity Polarization Storage in a Gigahertz Bandwidth
High-Fidelity Polarization Storage in a Gigahertz Bandwidth

... with a diode laser. The optical pumping laser is orthogonally polarized to the signal and is in a counter-propagating geometry. The cell is shielded from stray magnetic fields with several layers of µ-metal. By fitting the storage time to our model of magnetic dephasing, we estimate the stray magnet ...
Quantum Computation and Quantum Information” by Michael
Quantum Computation and Quantum Information” by Michael

... – Chapter 4: which builds on the concepts of chapters 1 and 2, introducing more in depth quantum algorithms, qubit operations, qubit gates, quantum circuits, and finally, notions of quantum simulation. – Chapter 5: which introduces the quantum Fourier transform, with applications in order-finding an ...
2. The HameroffŁs gap junction tunneling
2. The HameroffŁs gap junction tunneling

EXCHANGE CONTRIBUTIONS TO SPIN POLARIZATION IN LOW
EXCHANGE CONTRIBUTIONS TO SPIN POLARIZATION IN LOW

Literature Review
Literature Review

... while retaining smaller and smaller physical systems. Co-founder of Intel, Gordon Moore, proposed a theory that the number of transistors per square inch on an integrated circuit doubles every year. Up until the 21st century this theory held true, however, traditional silicon based computing devices ...
Lecture 22/23 1 Quantum Mechanics
Lecture 22/23 1 Quantum Mechanics

... Think again about the state |00� + |11�. What happens if you measure just the first qubit? Right, with probability 1/2 you get |00�, with probability 1/2 you get |11�. Now, why might that be disturbing? Right: because the second qubit might be light-years away from the first one! For a measurement of ...
Simulating a simple Quantum Computer
Simulating a simple Quantum Computer

Quantum control of a model qubit based on a multi - FaMAF
Quantum control of a model qubit based on a multi - FaMAF

A High Quality Factor Carbon Nanotube Mechanical Resonator at
A High Quality Factor Carbon Nanotube Mechanical Resonator at

IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)

Quantum Information and Quantum Computation
Quantum Information and Quantum Computation

... Chapter 52. Quantum Information and Quantum Computation Quantum computers store and process information at the level of individual quanta--atoms, photons, and electrons. Even if Moore's law persists, commercial quantum computers are not yet due on the shelves for another few decades; nonetheless, p ...
Document
Document

Landahl.quantum.errorcor
Landahl.quantum.errorcor

... Introduction: why quantum error correction? • Quantum states of superposition (which stores quantum information) extremely fragile. • Quantum error correction more tricky than classical error correction. • In the field of quantum computation, what is possible in theory is very far off from what can ...
Classical and Quantum Error Correction
Classical and Quantum Error Correction

... Introduction: why quantum error correction? • Quantum states of superposition (which stores quantum information) extremely fragile. • Quantum error correction more tricky than classical error correction. • In the field of quantum computation, what is possible in theory is very far off from what can ...
The Emergence of a Coupled Quantum Dot Array in a Doped Silicon
The Emergence of a Coupled Quantum Dot Array in a Doped Silicon

Measurement-based quantum computation with mechanical oscillators
Measurement-based quantum computation with mechanical oscillators

Hidden symmetries in the energy levels of excitonic `artificial atoms`
Hidden symmetries in the energy levels of excitonic `artificial atoms`

G-Complexity, Quantum Computation and Anticipatory Processes
G-Complexity, Quantum Computation and Anticipatory Processes

Non-classical computing - Mathematical and Computer Sciences
Non-classical computing - Mathematical and Computer Sciences

Quantum dot cellular automaton

Quantum dot cellular automata (sometimes referred to simply as quantum cellular automata, or QCA) are proposed models of quantum computation, which have been devised in analogy to conventional models of cellular automata introduced by von Neumann.