Beating no-go theorems by engineering defects in quantum spin models
DOI10.1088/1367-2630/17/4/043013zbMath1452.81038arXiv1406.7239OpenAlexW3100785260WikidataQ57640648 ScholiaQ57640648MaRDI QIDQ5142611
Debasis Sadhukhan, Ujjwal Sen, Sudipto Singha Roy, Debraj Rakshit, Aditi (De) Sen
Publication date: 14 January 2021
Published in: New Journal of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1406.7239
Bell inequalityquantum dense codingdisordered quantum systemsmonogamy in quantum mechanicsmultiparty communication networksno-go theorems in quantum mechanics
Interacting particle systems in time-dependent statistical mechanics (82C22) Quantum coherence, entanglement, quantum correlations (81P40) Quantum state estimation, approximate cloning (81P50) Entanglement measures, concurrencies, separability criteria (81P42)
Related Items (1)
Cites Work
- Unnamed Item
- Violating Bell inequality by mixed spin-\(\frac 12\) states: necessary and sufficient condition
- Two soluble models of an antiferromagnetic chain
- Optimal dense coding with mixed state entanglement
- The density-matrix renormalization group
- Quantum cryptography based on Bell’s theorem
- Communication via one- and two-particle operators on Einstein-Podolsky-Rosen states
- A single quantum cannot be cloned
- Proposed Experiment to Test Local Hidden-Variable Theories
- Rare region effects at classical, quantum and nonequilibrium phase transitions
- DENSE CODING WITH MULTIPARTITE QUANTUM STATES
This page was built for publication: Beating no-go theorems by engineering defects in quantum spin models
