QS

Published datasets resulting from QS "Leveraging Quantum Computers and Algorithms for Materials Discovery".

10.5281/zenodo.12547494 — Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, part 1/4, by M. Bilichenko
Related MARVEL publication:
- M. Bilichenko, M. Iannuzzi, G. Tocci, Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, ACS Nano 18, 24118–24127 (2024).
  Group(s): Hutter / Project(s): QS
10.5281/zenodo.12547514 — Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, part 2/4, by M. Bilichenko
Related MARVEL publication:
- M. Bilichenko, M. Iannuzzi, G. Tocci, Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, ACS Nano 18, 24118–24127 (2024).
  Group(s): Hutter / Project(s): QS
10.5281/zenodo.12547523 — Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, part 3/4, by M. Bilichenko
Related MARVEL publication:
- M. Bilichenko, M. Iannuzzi, G. Tocci, Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, ACS Nano 18, 24118–24127 (2024).
  Group(s): Hutter / Project(s): QS
10.5281/zenodo.12547539 — Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, part 4/4, by M. Bilichenko
Related MARVEL publication:
- M. Bilichenko, M. Iannuzzi, G. Tocci, Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, ACS Nano 18, 24118–24127 (2024).
  Group(s): Hutter / Project(s): QS
10.5281/zenodo.12594971 — mariabilichenk0/slip-opacity: v0.1.0, by M. Bilichenko
Related MARVEL publication:
- M. Bilichenko, M. Iannuzzi, G. Tocci, Slip Opacity and Fast Osmotic Transport of Hydrophobes at Aqueous Interfaces with Two-Dimensional Materials, ACS Nano 18, 24118–24127 (2024).
  Group(s): Hutter / Project(s): QS
10.5281/zenodo.10829066 — gentinettagian/circuit-cutting-pvqd: Published version, by G. Gentinetta
Related MARVEL publication:
- G. Gentinetta, F. Metz, G. Carleo, Overhead-constrained circuit knitting for variational quantum dynamics, Quantum 8, 1296 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
10.5281/zenodo.6303725 — gentinettagian/complexity_of_qsvms: arXiv release, by G. Gentinetta
Related MARVEL publication:
- G. Gentinetta, A. Thomsen, D. Sutter, S. Woerner, The complexity of quantum support vector machines, Quantum8, 1225 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
10.5281/zenodo.8263407 — varbench/varbench: v1.1.0, by J. M. Silvester, D. Wu, ltocchio, N. Astrakhantsev, G. Carleo, Y. Yang, F. Ferrari, R. Pohle, ssorella, M. Hibat-Allah, jrm874, yusukenomura, F. Vicentini, M. Schmid, xiaodongcao, I. Romero, A. Wietek, J. Nys, Q. Yang
Related MARVEL publication:
- D. Wu, R. Rossi, F. Vicentini, N. Astrakhantsev, F. Becca, X. Cao, J. Carrasquilla, F. Ferrari, A. Georges, M. Hibat-Allah, M. Imada, A. M. Läuchli, G. Mazzola, A. Mezzacapo, A. Millis, J. R. Moreno, T. Neupert, Y. Nomura, J. Nys, O. Parcollet, R. Pohle, I. Romero, M. Schmid, J. M. Silvester, S. Sorella, L. F. Tocchio, L. Wang, S. R. White, A. Wietek, Q. Yang, Y. Yang, S. Zhang, G. Carleo, Variational benchmarks for quantum many-body problems, Science 386, 296–301 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): P2, QS
10.5281/zenodo.13318731 — Predicting Topological Entanglement Entropy in a Rydberg analog simulator, by L. Mauron
Related MARVEL publication:
- L. Mauron, Z. Denis, J. Nys, G. Carleo, Predicting Topological Entanglement Entropy in a Rydberg analog simulator, arXiv:2406.19872 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
10.24435/materialscloud:47-6g — A general framework for active space embedding methods: applications in quantum computing, by S. Battaglia, M. Rossmannek, V. V. Rybkin, I. Tavernelli, J. Hutter
Related MARVEL publication:
- S. Battaglia, M. Rossmannek, V. V. Rybkin, I. Tavernelli, J. Hutter, A general framework for active space embedding methods with applications in quantum computing, npj Computational Materials 10, 297 (2024). [Open Access URL]
  Group(s): Hutter, Tavernelli / Project(s): QS

github.com/dalin27/adaptive-pvqd — Adaptive Projected Variational Quantum Dynamics (Adaptive pVQD), by David Linteau, Stefano Barison, Netanel H. Lindner, and Giuseppe Carleo
Related MARVEL publication
- D. Linteau, S. Barison, N. H. Lindner, G. Carleo, Adaptive projected variational quantum dynamics, Physical Review Research 6, 023130 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
github.com/dobrautz/tc-varqite-hamiltonians — tc-varqite-hamiltonians, by Werner Dobrautz
Related MARVEL publication:
- W. Dobrautz, I. O. Sokolov, K. Liao, P. L. Ríos, M. Rahm, A. Alavi, I. Tavernelli, Toward Real Chemical Accuracy on Current Quantum Hardware Through the Transcorrelated Method, Journal of Chemical Theory and Computation 20, 4146–4160 (2024). [Open Access URL]
  Group(s): Tavernelli / Project(s): QS
github.com/frmetz/continuous-space-quantum-simulation — Simulating continuous-space systems with quantum-classical wave functions, by Friederike Metz, Gabriel Pescia, and Giuseppe Carleo
Related MARVEL publication:
- F. Metz, G. Pescia, G. Carleo, Simulating continuous-space systems with quantum-classical wave functions, arXiv:2409.06415 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
github.com/mgbukov/RL_disentangle — RL disentangle, by Pavel Tashev and Stefan Petrov and Friederike Metz and Marin Bukov
Related MARVEL publication:
- P. Tashev, S. Petrov, F. Metz, M. Bukov, Reinforcement Learning to Disentangle Multiqubit Quantum States from Partial Observations, arXiv:2406.07884 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS
github.com/MSRudolph/PauliPropagation.jl — PauliPropagation.jl, by Manuel Rudolph, Yanting Teng, and Tyson Jones
Related MARVEL publications:
- S. Lerch, R. Puig, M. Rudolph, A. Angrisani, T. Jones, M. Cerezo, S. Thanasilp, Z. Holmes, Efficient quantum-enhanced classical simulation for patches of quantum landscapes, arXiv:2411.19896 (2024). [Open Access URL]
  Group(s): Holmes / Project(s): QS
- A. Angrisani, A. Schmidhuber, M. S. Rudolph, M. Cerezo, Z. Holmes, H. Huang, Classically estimating observables of noiseless quantum circuits, arXiv:2409.01706 (2024). [Open Access URL]
  Group(s): Holmes / Project(s): QS
- P. Bermejo, P. Braccia, M. S. Rudolph, Z. Holmes, L. Cincio, M. Cerezo, Quantum Convolutional Neural Networks are (Effectively) Classically Simulable, arXiv:2408.12739 (2024). [Open Access URL]
  Group(s): Holmes / Project(s): QS

10.5281/zenodo.7804477 — gentinettagian/PegasosQKA: arXiv release, by G. Gentinetta, D. Sutter, C. Zoufal, S. Woerner
Related MARVEL publication:
- G. Gentinetta, D. Sutter, C. Zoufal, B. Fuller, S. Woerner, Quantum Kernel Alignment with Stochastic Gradient Descent, 256–262 (2023). [Open Access URL]
  Group(s): Carleo / Project(s): QS
10.5281/zenodo.8263408 — varbench/varbench: VarBench version 1.0.0, by J. M. Silvester, D. Wu, Ltocchio, N. Astrakhantsev, Yyang606, F. Ferrari, R. Pohle, Ssorella, G. Carleo, M. Hibat-Allah, Jrm874, Yusukenomura, M. Schmid, F. Vicentini, I. Romero, Xiaodongcao, J. Nys, Q. Yang
Related MARVEL publication:
- D. Wu, R. Rossi, F. Vicentini, N. Astrakhantsev, F. Becca, X. Cao, J. Carrasquilla, F. Ferrari, A. Georges, M. Hibat-Allah, M. Imada, A. M. Läuchli, G. Mazzola, A. Mezzacapo, A. Millis, J. R. Moreno, T. Neupert, Y. Nomura, J. Nys, O. Parcollet, R. Pohle, I. Romero, M. Schmid, J. M. Silvester, S. Sorella, L. F. Tocchio, L. Wang, S. R. White, A. Wietek, Q. Yang, Y. Yang, S. Zhang, G. Carleo, Variational Benchmarks for Quantum Many-Body Problems, arXiv:2302.04919(2023). [Open Access URL]
  Group(s): Carleo / Project(s): QS
10.5281/zenodo.10376853 — frmetz/VQErgo_quantum_battery: initial release, by F. Metz
Related MARVEL publication:
- D. T. Hoang, F. Metz, A. Thomasen, T. D. Anh-Tai, T. Busch, T. Fogarty, Variational quantum algorithm for ergotropy estimation in quantum many-body batteries, Physical Review Research 6, 013038 (2024). [Open Access URL]
  Group(s): Carleo / Project(s): QS

github.com/StefanoBarison/hybrid_ansatz — Embedding quantum circuit in classical variational methods, by S. Barison
Related MARVEL publication:
- S. Barison, F. Vicentini, G. Carleo, Embedding Classical Variational Methods in Quantum Circuits, arXiv:2309.08666 (2023). [Open Access URL]
  Group(s): Carleo / Project(s): QS
github.com/gentinettagian/circuit-cutting-pvqd — Overhead-constrained circuit knitting for variational quantum dynamics, by G. Gentinetta
Related MARVEL publication:
- G. Gentinetta, F. Metz, G. Carleo, Overhead-constrained circuit knitting for variational quantum dynamics, arXiv:2309.07857 (2023). [Open Access URL]
  Group(s): Carleo / Project(s): QS

10.24435/materialscloud:xf-wj — Variational dynamics as a ground-state problem on a quantum computer, by S. Barison, F. Vicentini, I. Cirac, G. Carleo
Related MARVEL publication:
- S. Barison, F. Vicentini, I. Cirac, G. Carleo, Variational dynamics as a ground-state problem on a quantum computer, Physical Review Research 4, 043161 (2022). [Open Access URL]
  Group(s): Carleo / Project(s): QS