GitHub topics: quantum-entanglement
QuantumSavory/LCOrbits.jl
A Julia wrapper for databases of local complementation orbits.
Language: Julia - Size: 62.5 MB - Last synced at: 3 days ago - Pushed at: 3 days ago - Stars: 2 - Forks: 0
QuantumSavory/QuantumClifford.jl
Clifford circuits, graph states, and other quantum Stabilizer formalism tools.
Language: Julia - Size: 30.5 MB - Last synced at: 3 days ago - Pushed at: 3 days ago - Stars: 139 - Forks: 55
stephenhky/pyqentangle
Quantum Entanglement in Python
Language: Python - Size: 3.65 MB - Last synced at: 1 day ago - Pushed at: 1 day ago - Stars: 20 - Forks: 5
kephircheek/Generation-of-non-maximally-entangled-states-between-BECs-with-quantum-optimal-control-methods
We show that it is possible to obtain non-maximally entangled states with the use of the bosonic analog of XY Hamiltonian and the methods of quantum optimal control.
Language: TeX - Size: 563 KB - Last synced at: 11 days ago - Pushed at: 11 days ago - Stars: 0 - Forks: 0
yygarypeng/QE-mls
This repo is the code used for the neutrino/W bosons reconstruction from fully leptonic decay related to the quantum entanglement measurement in the HWW* decay at the ATLAS experiment, LHC.
Language: Jupyter Notebook - Size: 980 MB - Last synced at: 13 days ago - Pushed at: 13 days ago - Stars: 0 - Forks: 0
MuonRay/Quantum-Encryption-of-Images-using-Bitwise-XOR-and-QRNG
Article here: http://muonray.blogspot.com/2022/02/quantum-encryption-of-images-in-python.html The definition of image encryption used here is an extension of data encryption in general: using the bitwise XOR operation of the original image pixels and the random key image pixels, with the key image being either a pseudo-random stream cipher or the quantum random stream cipher or anti-correlated entangled information shared over a secure channel. In either case we Perform bitwise XOR operation on the encrypted image and the key image. It can be seen from the image encryption and decryption that they are all the same operation. According to the above bitwise XOR operation, we assume: xor(a,b)=c You can get: xor(c,b)=a Or: xor(c,a)=b In summary, we assume that a is the original image data and b is the key, then c calculated by xor(a,c) is the encrypted ciphertext. This is a simple summary of the encryption and decryption process as used in the coding in this repository. Encryption process: Perform a bitwise XOR operation on the image a and the key b to complete the encryption and obtain the ciphertext c. Decryption process: Perform a bitwise XOR operation on the ciphertext c and the key b, complete the decryption, and get the image a. We can use our quantum random numbers generator in 2 ways to create our image encryption key: (1) as a random number generator seed source (2) using the random superposition of the H and V modes We can also use the shared set of correlated images, captured using the single CCD, from our entangled photon source with Alice getting one half and Bob getting the anti-correlated half. This provides the perfect key, with the quantum images shared over a separate channel hidden from the encrypted classical images. The file exchange channel is 2 way: Alice can use Her key to encrypt the image, Bob can use His key to decrypt the image OR Bob can use His key to encrypt the image, Alice can use Her key to decrypt the image. The XOR Cipher in this use can also be extended as a component in more complex overlay network ciphers if need be however for computational efficiency it is not necessary. It is just as effectual to have 1 quantum cipher as many, so in effect the system is completely hidden, by virtue of hidden variables, and is encrypted in an information condensate.
Language: Python - Size: 3.67 MB - Last synced at: 20 days ago - Pushed at: almost 3 years ago - Stars: 10 - Forks: 1
news-vt/eqmarl
This is the repository for the paper "eQMARL: Entangled Quantum Multi-Agent Reinforcement Learning for Distributed Cooperation over Quantum Channels" published in ICLR 2025
Language: Jupyter Notebook - Size: 111 MB - Last synced at: about 1 month ago - Pushed at: about 1 month ago - Stars: 0 - Forks: 0
soportevictor/Emergent-Dimension
Emergent Dimension
Size: 1.95 KB - Last synced at: about 2 months ago - Pushed at: about 2 months ago - Stars: 0 - Forks: 0
thyung/qiskit_chsh
Demonstrate CHSH game and show the 0.85 probability winning strategy
Language: Jupyter Notebook - Size: 540 KB - Last synced at: about 2 months ago - Pushed at: about 2 months ago - Stars: 0 - Forks: 0
ratwolfzero/Emergent-Dimension
Emergent Dimension
Language: Python - Size: 271 KB - Last synced at: about 1 month ago - Pushed at: about 2 months ago - Stars: 0 - Forks: 0
15-minute-discourse/quantum-entanglement
Associated repository for the "Quantum Entanglement: Spooky Connections Explained!" 15 minute discourse podcast on YouTube!
Size: 55.7 KB - Last synced at: 2 months ago - Pushed at: 2 months ago - Stars: 1 - Forks: 0
aaron-pope-turner/Intentional-Manifestation_app.py
Just my README.md thus far.
Size: 14.6 KB - Last synced at: 4 months ago - Pushed at: 4 months ago - Stars: 0 - Forks: 0
Argmaster/CSSFinder Fork of wiesnim9/CSSFinder
Tool for Hilbert-Schmidt distance calculation with Gilbert algorithm.
Language: Python - Size: 3.21 MB - Last synced at: about 12 hours ago - Pushed at: 9 months ago - Stars: 0 - Forks: 0
KOSASIH/Chronostic-Nexus
Central hub for the Chronostic project, containing the NeuroQuantum Core, ChronoChain, and Quantum Entanglement Network.
Language: Python - Size: 591 KB - Last synced at: 6 months ago - Pushed at: 6 months ago - Stars: 12 - Forks: 0
camitava0321/quantumComputing
Updated and most comprehensive Repository On Quantum Computing Resources. It contains all the material I use for my research on Quantum Computing for Both Theories and Codes - I update it regularly.
Language: Jupyter Notebook - Size: 22.7 MB - Last synced at: 9 months ago - Pushed at: about 1 year ago - Stars: 21 - Forks: 9
rubenandrebarreiro/ibm-qiskit-quantum-explorers-2023-2024
⚛️ 🚀 👽 A self-paced, game-based Quantum Computing learning program for students, researchers and enthusiasts. This program offers a general understanding of Quantum Computing, as well as some of its applications, such as Quantum Machine Learning and Quantum Optimization, and how to program real quantum computers.
Language: Jupyter Notebook - Size: 25.9 MB - Last synced at: 12 months ago - Pushed at: 12 months ago - Stars: 5 - Forks: 3
Argmaster/bachelors_thesis
Finished with grade 5 (2-5 range), unfortunately only Polish version is available.
Language: Jupyter Notebook - Size: 42.9 MB - Last synced at: about 1 month ago - Pushed at: 10 months ago - Stars: 0 - Forks: 0
jan-provaznik/witnessmess
Witnessing multi-partite entanglement in Python.
Language: Python - Size: 40 KB - Last synced at: 8 months ago - Pushed at: almost 2 years ago - Stars: 1 - Forks: 0
deadshot8086/quantum-mev-protocol-netsquid
Simulating Multipartite Entanglement Verification Protocol using NetSquid
Language: Jupyter Notebook - Size: 325 KB - Last synced at: over 1 year ago - Pushed at: almost 3 years ago - Stars: 0 - Forks: 0
codeswift27/quantum-entanglement
What if things aren't always what they seem? An introduction to quantum entanglement (2022 Swift Student Challenge submission)
Language: Swift - Size: 91.8 KB - Last synced at: over 1 year ago - Pushed at: almost 3 years ago - Stars: 7 - Forks: 0
rubenandrebarreiro/ibm-qiskit-global-summer-school-2023
⚛️ 👨🏫 📚 A two-week intensive Summer School on Quantum Computing from IBM Quantum, using mostly the features of the IBM's Qiskit library. In this Summer School, were lectured topics on basics of Quantum Information, Quantum Entanglement, Quantum Algorithms, Quantum Error Mitigation, among many others.
Language: Jupyter Notebook - Size: 65.8 MB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 1 - Forks: 1
Argmaster/cssfinder_backend_numpy
Implementation of CSSFinder backend using NumPy for calculations.
Language: Python - Size: 1.43 MB - Last synced at: 20 days ago - Pushed at: 9 months ago - Stars: 0 - Forks: 0
TsvetelinKostadinv/Simulation-Q 📦
A simulation of the inner working of a quantum computer
Language: Java - Size: 512 KB - Last synced at: about 2 years ago - Pushed at: about 4 years ago - Stars: 4 - Forks: 0
QuantumComputingWorld/QDCE
Can we send information to the past or future, and due to entanglement past and present are same instance, Quantum delayed choice experiment - already proven impossible - however, personal rework and conceptual understanding
Size: 1.95 KB - Last synced at: about 2 months ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 1
fomalhautn/Quantum-Entanglement_Friedrich-Schiller-University-Jena
Implementation of a quantum circuit, creating a pair of entangled qubits in the |𝜙+⟩ state.
Language: Jupyter Notebook - Size: 351 KB - Last synced at: almost 2 years ago - Pushed at: over 2 years ago - Stars: 0 - Forks: 0
greatsharma/Basics-of-Quantum-in-Python
Basic quantum programming using qiskit in python
Language: Python - Size: 143 KB - Last synced at: about 2 years ago - Pushed at: almost 5 years ago - Stars: 2 - Forks: 0
aidanbdh/quantum-entanglement
An atom plugin for users that want to edit the same file in real time.
Language: JavaScript - Size: 61.5 KB - Last synced at: about 1 year ago - Pushed at: about 8 years ago - Stars: 1 - Forks: 0
