<--- Back to Details
First PageDocument Content
Quantum mechanics / Quantum teleportation / Interactive proof system / Quantum entanglement / Quantum channel / IP / NEXPTIME / Quantum key distribution / Qubit / Physics / Theoretical computer science / Quantum information science
Date: 2013-08-13 18:53:20
Quantum mechanics
Quantum teleportation
Interactive proof system
Quantum entanglement
Quantum channel
IP
NEXPTIME
Quantum key distribution
Qubit
Physics
Theoretical computer science
Quantum information science

Coherent state exchange in multi-prover quantum interactive proof systems

Add to Reading List

Source URL: cjtcs.cs.uchicago.edu

Download Document from Source Website

File Size: 252,29 KB

Share Document on Facebook

Similar Documents

Quantum information science / Quantum mechanics / Theoretical computer science / Physics / Superdense coding / Quantum teleportation / Qubit / Bell state / Quantum entanglement / GreenbergerHorneZeilinger state / Controlled NOT gate / W state

Lecture 10, Thurs Feb 16: Teleportation, Entanglement Swapping, GHZ, Monogamy Next let’s see... Quantum Teleportation which is a result from 1991 that came as a great surprise. Science journalists still love it given i

DocID: 1xUzD - View Document

Physics / Quantum information science / Quantum mechanics / Theoretical computer science / Quantum information theory / Statistical mechanics / Quantum states / Quantum entanglement / Von Neumann entropy / Schmidt decomposition / Bell state / Entropy

Lecture 11, Tues Feb 21: Quantifying Entanglement, Mixed State Entanglement How do you quantify how much entanglement there is between two quantum systems? It’s worth noting that we sort of get to decide what we think

DocID: 1xUig - View Document

Appeared in: Proceedings—Quantum Theory: Reconsideration of Foundations-3; Växjö, Sweden, JuneAIP Conf. Proc. 810, Jan. 2006).© Second entanglement and (re)Born wave functions in Stochastic Electr

DocID: 1ulQf - View Document

Math. Program., Ser. B https://doi.orgs10107z FULL LENGTH PAPER Bounds on entanglement dimensions and quantum graph parameters via noncommutative polynomial

DocID: 1tZJS - View Document

Quantum Circuits, Polynomials, and Entanglement Measures Working Draft Kenneth Regan University at Buffalo (SUNY) Amlan Chakrabarti

DocID: 1sVyq - View Document