| Quantum optimization using variational algorithms on near-term quantum devices |
46 |
| Continuous-variable QKD over 50 km commercial fiber |
42 |
| Strategies for quantum computing molecular energies using the unitary coupled cluster ansatz |
36 |
| Theory of channel simulation and bounds for private communication |
30 |
| Quantum-secured blockchain |
28 |
| Ultracold molecules for quantum simulation: rotational coherences in CaF and RbCs |
26 |
| Bounds for multi-end communication over quantum networks |
21 |
| A homodyne detector integrated onto a photonic chip for measuring quantum states and generating random numbers |
21 |
| Towards quantum machine learning with tensor networks |
21 |
| Quantum simulation of lattice gauge theories using Wilson fermions |
19 |
| Parameterized quantum circuits as machine learning models |
18 |
| Cryogenic trapped-ion system for large scale quantum simulation |
17 |
| Entanglement of neutral-atom qubits with long ground-Rydberg coherence times |
16 |
| On-chip quantum interference of a superconducting microsphere |
15 |
| Machine learning method for state preparation and gate synthesis on photonic quantum computers |
15 |
| Quantum-dot based photonic quantum networks |
15 |
| Qubit models of weak continuous measurements: markovian conditional and open-system dynamics |
14 |
| Low-depth circuit ansatz for preparing correlated fermionic states on a quantum computer |
14 |
| Deep neural decoders for near term fault-tolerant experiments |
14 |
| Decoding small surface codes with feedforward neural networks |
13 |
| Qubit compatible superconducting interconnects |
13 |
| Boltzmann sampling for an XY model using a non-degenerate optical parametric oscillator network |
12 |
| Levitated electromechanics: all-electrical cooling of charged nano- and micro-particles |
12 |
| Quantum variational autoencoder |
12 |
| Opportunities and challenges for quantum-assisted machine learning in near-term quantum computers |
12 |
| A deceptive step towards quantum speedup detection |
11 |
| An efficient quantum compiler that reduces T count |
11 |
| The US National Quantum Initiative |
11 |
| Tunable optical coherence tomography in the infrared range using visible photons |
11 |
| High speed continuous variable source-independent quantum random number generation |
11 |
| Protecting quantum memories using coherent parity check codes |
10 |
| A software methodology for compiling quantum programs |
10 |
| Facilitated quantum cellular automata as simple models with non-thermal eigenstates and dynamics |
10 |
| Precision thermometry and the quantum speed limit |
10 |
| Compiling quantum circuits to realistic hardware architectures using temporal planners |
10 |
| Exponentially more precise quantum simulation of fermions in the configuration interaction representation |
9 |
| A theory of single-shot error correction for adversarial noise |
9 |
| Quantum-assisted Helmholtz machines: A quantum-classical deep learning framework for industrial datasets in near-term devices |
9 |
| An out-of-equilibrium non-Markovian quantum heat engine |
9 |
| Parameter regimes for a single sequential quantum repeater |
8 |
| Quantum information research in China |
8 |
| Dynamics of ultracold quantum gases in the dissipative Fermi-Hubbard model |
8 |
| Apparent temperature: demystifying the relation between quantum coherence, correlations, and heat flows |
8 |
| Optimal superadiabatic population transfer and gates by dynamical phase corrections |
8 |
| Coherence and non-classicality of quantum Markov processes |
8 |
| Growing macroscopic superposition states via cavity quantum optomechanics |
8 |
| Learning relevant features of data with multi-scale tensor networks |
8 |
| Designing quantum experiments with a genetic algorithm |
7 |
| Introduction to topological quantum computation with non-Abelian anyons |
7 |
| Quantum-classical interface based on single flux quantum digital logic |
7 |
