Description
Detecting, quantifying and interpreting entanglement: (2) the multipartite case
2025-10-1101:31:59
Detecting, quantifying and interpreting entanglement: (1) the bipartite case
2025-10-1101:29:09
Topological quantum computing with Majorana fermions
2025-10-1101:33:56
Experimental Quantum Simulation with Neutral Atoms
2025-10-1101:27:56
Scaling photonic systems for quantum information processing
2025-10-1101:26:00
Quantum Computing with Atomic Qubit Arrays
2025-10-1101:37:05
A quantum computer based on trapped ions: status and prospects
2025-10-1101:29:46
Quantum networks: theoretical foundations, practical implementations
2025-10-1101:27:46
Quantum error correction, part 2
2025-10-1101:36:55
Applications of quantum computing for quantum chemistry
2025-10-1101:42:20
Quantum algorithms, part 2
2025-10-1101:37:57
Quantum Error Correction with Superconducting Circuits
2025-10-1101:35:10
Quantum error correction, part 1
2025-10-1101:42:10
Quantum algorithms, part 1
2025-10-1101:32:06
Engineering flat-bands in moiré materials, part 2
2025-10-1001:15:51
Engineering flat-bands in moiré materials, part 1
2025-10-1025:55
Solving the Mott Problem
2025-10-1001:12:00
Beyond (typical) FHM with ultracold Yb atoms in optical lattices
2025-10-1001:28:38
Theory of SU(N) Systems, part 2
2025-10-1001:19:32
Quantum Monte Carlo methods for fermion Hamiltonians with sign problem, and applications in the Hubbard model, part 2
2025-10-1001:35:29
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