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1. Seeing quantum mechanics: The role of quantum experiments

   https://doi.org/10.1119/perc.2022.pr.Borish  

   Borish, Victoria; Werth, Alexandra; Lewandowski, H. J. (September 2022, PERC Proceedings)
2. Quantum simulation of bosons with the contracted quantum eigensolver

   https://doi.org/10.1088/1367-2630/acf9c3  

   Wang, Yuchen; Sager-Smith, LeeAnn M.; Mazziotti, David A. (October 2023, New Journal of Physics)

   Abstract Quantum computers are promising tools for simulating many-body quantum systems due to their potential scaling advantage over classical computers. While significant effort has been expended on many-fermion systems, here we simulate a model entangled many-boson system with the contracted quantum eigensolver (CQE). We generalize the CQE to many-boson systems by encoding the bosonic wavefunction on qubits. The CQE provides a compact ansatz for the bosonic wave function whose gradient is proportional to the residual of a contracted Schrödinger equation. We apply the CQE to a bosonic system, whereNquantum harmonic oscillators are coupled through a pairwise quadratic repulsion. The model is relevant to the study of coupled vibrations in molecular systems on quantum devices. Results demonstrate the potential efficiency of the CQE in simulating bosonic processes such as molecular vibrations with good accuracy and convergence even in the presence of noise. 

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3. Quantum repeaters: From quantum networks to the quantum internet

   https://doi.org/10.1103/RevModPhys.95.045006  

   Azuma, Koji; Economou, Sophia E.; Elkouss, David; Hilaire, Paul; Jiang, Liang; Lo, Hoi-Kwong; Tzitrin, Ilan (December 2023, Reviews of Modern Physics)

   A quantum internet is the holy grail of quantum information processing, enabling the deployment of a broad range of quantum technologies and protocols on a global scale. However, numerous challenges must be addressed before the quantum internet can become a reality. Perhaps the most crucial of these is the realization of a quantum repeater, an essential component in the long-distance transmission of quantum information. As the analog of a classical repeater, extender, or booster, the quantum repeater works to overcome loss and noise in the quantum channels constituting a quantum network. Here the conceptual frameworks and architectures for quantum repeaters, as well as the experimental progress toward their realization, are reviewed. Various near-term proposals to overcome the limits to the communication rates set by point-to-point quantum communication are also discussed. Finally, the manner in which quantum repeaters fit within the broader challenge of designing and implementing a quantum internet is overviewed. 

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4. Spectral bounds for the quantum chromatic number of quantum graphs

   https://doi.org/10.1016/j.laa.2023.06.007  

   Ganesan, Priyanga (October 2023, Linear Algebra and its Applications)
5. Analog Quantum Simulation of the Dynamics of Open Quantum Systems with Quantum Dots and Microelectronic Circuits

   https://doi.org/10.1103/PRXQuantum.3.040308  

   Kim, Chang Woo; Nichol, John M.; Jordan, Andrew N.; Franco, Ignacio (October 2022, PRX Quantum)