<--- Back to Details
First PageDocument Content
Matter / Adrian Melott / Quantum electronics / Superconductivity / Leptons / Neutrinos / Superconducting quantum computing / Qubit / Cui / Theoretical computer science / Physics / Quantum information science
Date: 2014-05-01 11:54:26
Matter
Adrian Melott
Quantum electronics
Superconductivity
Leptons
Neutrinos
Superconducting quantum computing
Qubit
Cui
Theoretical computer science
Physics
Quantum information science

Add to Reading List

Source URL: www.physics.ku.edu

Download Document from Source Website

File Size: 27,81 KB

Share Document on Facebook

Similar Documents

Quantum information science / Quantum mechanics / Theoretical computer science / Physics / Qubit / Bloch sphere / Quantum circuit / Controlled NOT gate / Quantum entanglement / No-cloning theorem / Bell state / Quantum computing

Lecture 7, Tues Feb 7: Bloch Sphere, No-Cloning, Wiesner’s Quantum Money The Bloch Sphere is a geometric representation of all possible states of a qubit. We’ve often drawn the state of qubits as a circle, which is a

DocID: 1xTpk - View Document

Quantum information science / Quantum mechanics / Theoretical computer science / Physics / Qubit / Bell state / Quantum entanglement / Quantum circuit / Quantum information / Quantum superposition / Superdense coding / Quantum computing

Lecture 5, Tues Jan 30: Coin Problem, Inner Products, Multi-Qubit States, Entanglement Say you have a coin, and you want to figure out if it’s fair ( would you go about doing so? ) or if it’s biased

DocID: 1xTp8 - View Document

An  Analysis  of  Inconsistencies  Between  Assumed  Concentrations  and  Qubit  Values   These  graphs  display  the  relationship   between  Qubit  values  measured

DocID: 1va9V - View Document

Clicktale integration with Qubit_NB2

DocID: 1uFMp - View Document

Kvantifikace s jistotou Quantus™ Fluorometr - Promega Výhody: ● x citlivější než spektrofotometrické kvantifikace NanoDrop® ● 10 x citlivější než Qubit® 2.0 fluorometr

DocID: 1ujI7 - View Document