Výsledky vyhledávání - "Carrasquilla, A."

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Autoregressive neural quantum states of Fermi Hubbard models

Autor: Ibarra-García-Padilla, Eduardo, Lange, Hannah, Melko, Roger G, Scalettar, Richard T, Carrasquilla, Juan, Bohrdt, Annabelle, Khatami, Ehsan

Neural quantum states (NQS) have emerged as a powerful ansatz for variational quantum Monte Carlo studies of strongly-correlated systems. Here, we apply recurrent neural networks (RNNs) and autoregressive transformer neural networks to the Fermi-Hubb

Externí odkaz: http://arxiv.org/abs/2411.07144

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Scalable quantum dynamics compilation via quantum machine learning

Autor: Zhang, Yuxuan, Wiersema, Roeland, Carrasquilla, Juan, Cincio, Lukasz, Kim, Yong Baek

Quantum dynamics compilation is an important task for improving quantum simulation efficiency: It aims to synthesize multi-qubit target dynamics into a circuit consisting of as few elementary gates as possible. Compared to deterministic methods such

Externí odkaz: http://arxiv.org/abs/2409.16346

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An Earth-System-Oriented View of the S2S Predictability of North American Weather Regimes

Autor: Pérez-Carrasquilla, Jhayron S., Molina, Maria J.

It is largely understood that subseasonal-to-seasonal (S2S) predictability arises from the atmospheric initial state during early lead times, the land during intermediate lead times, and the ocean during later lead times. We examine whether this hypo

Externí odkaz: http://arxiv.org/abs/2409.08174

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Using Generative Artificial Intelligence Creatively in the Classroom: Examples and Lessons Learned

Autor: Molina, Maria J., McGovern, Amy, Perez-Carrasquilla, Jhayron S., Tanamachi, Robin L.

Although generative artificial intelligence (AI) is not new, recent technological breakthroughs have transformed its capabilities across many domains. These changes necessitate new attention from educators and specialized training within the atmosphe

Externí odkaz: http://arxiv.org/abs/2409.05176

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Observation of a non-Hermitian supersonic mode

Autor: Zhang, Yuxuan, Carrasquilla, Juan, Kim, Yong Baek

Quantum computers have long been anticipated to excel in simulating quantum many-body physics. While most previous work has focused on Hermitian physics, we demonstrate the power of variational quantum circuits for resource-efficient simulations of d

Externí odkaz: http://arxiv.org/abs/2406.15557

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Recurrent neural network wave functions for Rydberg atom arrays on kagome lattice

Autor: Hibat-Allah, Mohamed, Merali, Ejaaz, Torlai, Giacomo, Melko, Roger G, Carrasquilla, Juan

Rydberg atom array experiments have demonstrated the ability to act as powerful quantum simulators, preparing strongly-correlated phases of matter which are challenging to study for conventional computer simulations. A key direction has been the impl

Externí odkaz: http://arxiv.org/abs/2405.20384

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The statistical mechanics and machine learning of the $\alpha$-R\'enyi ensemble

Autor: Jreissaty, Andrew, Carrasquilla, Juan

We study the statistical physics of the classical Ising model in the so-called $\alpha$-R\'enyi ensemble, a finite-temperature thermal state approximation that minimizes a modified free energy based on the $\alpha$-R\'enyi entropy. We begin by charac

Externí odkaz: http://arxiv.org/abs/2404.04005

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Computational supremacy in quantum simulation

Autor: King, Andrew D., Nocera, Alberto, Rams, Marek M., Dziarmaga, Jacek, Wiersema, Roeland, Bernoudy, William, Raymond, Jack, Kaushal, Nitin, Heinsdorf, Niclas, Harris, Richard, Boothby, Kelly, Altomare, Fabio, Berkley, Andrew J., Boschnak, Martin, Chern, Kevin, Christiani, Holly, Cibere, Samantha, Connor, Jake, Dehn, Martin H., Deshpande, Rahul, Ejtemaee, Sara, Farré, Pau, Hamer, Kelsey, Hoskinson, Emile, Huang, Shuiyuan, Johnson, Mark W., Kortas, Samuel, Ladizinsky, Eric, Lai, Tony, Lanting, Trevor, Li, Ryan, MacDonald, Allison J. R., Marsden, Gaelen, McGeoch, Catherine C., Molavi, Reza, Neufeld, Richard, Norouzpour, Mana, Oh, Travis, Pasvolsky, Joel, Poitras, Patrick, Poulin-Lamarre, Gabriel, Prescott, Thomas, Reis, Mauricio, Rich, Chris, Samani, Mohammad, Sheldan, Benjamin, Smirnov, Anatoly, Sterpka, Edward, Clavera, Berta Trullas, Tsai, Nicholas, Volkmann, Mark, Whiticar, Alexander, Whittaker, Jed D., Wilkinson, Warren, Yao, Jason, Yi, T. J., Sandvik, Anders W., Alvarez, Gonzalo, Melko, Roger G., Carrasquilla, Juan, Franz, Marcel, Amin, Mohammad H.

Quantum computers hold the promise of solving certain problems that lie beyond the reach of conventional computers. Establishing this capability, especially for impactful and meaningful problems, remains a central challenge. One such problem is the s

Externí odkaz: http://arxiv.org/abs/2403.00910

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Geodesic Algorithm for Unitary Gate Design with Time-Independent Hamiltonians

Autor: Lewis, Dylan, Wiersema, Roeland, Carrasquilla, Juan, Bose, Sougato

Larger multi-qubit quantum gates allow shallower, more efficient quantum circuits, which could decrease the prohibitive effect of noise on algorithms for noisy intermediate-scale quantum (NISQ) devices and fault-tolerant error correction schemes. Suc

Externí odkaz: http://arxiv.org/abs/2401.05973

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Characterization of overparametrization in the simulation of realistic quantum systems

Autor: Duschenes, Matthew, Carrasquilla, Juan, Laflamme, Raymond

Publikováno v: Phys. Rev. A 109, 062607 (2024)

Quantum computing devices require exceptional control of their experimental parameters to prepare quantum states and simulate other quantum systems. Classical optimization procedures used to find such optimal control parameters, have further been sho

Externí odkaz: http://arxiv.org/abs/2401.05500

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