Accelerating Lattice Quantum Field Theory Calculations via Interpolator Optimization Using Noisy Intermediate-Scale Quantum Computing

Avkhadiev A.; Shanahan P. E.; Young R. D.

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Accelerating Lattice Quantum Field Theory Calculations via Interpolator Optimization Using Noisy Intermediate-Scale Quantum Computing

机译：通过使用有噪中阶量子计算的插值器优化来加速晶格量子场理论计算

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The only known way to study quantum field theories in nonperturbative regimes is using numerical calculations regulated on discrete space-time lattices. Such computations, however, are often faced with exponential signal-to-noise challenges that render key physics studies untenable even with next generation classical computing. Here, a method is presented by which the output of small-scale quantum computations on noisy intermediate-scale quantum era hardware can be used to accelerate larger-scale classical field theory calculations through the construction of optimized interpolating operators. The method is implemented and studied in the context of the 1 + 1-dimensional Schwinger model, a simple field theory which shares key features with the standard model of nuclear and particle physics.

机译：在非摄动状态下研究量子场论的唯一已知方法是使用在离散时空晶格上调节的数值计算。然而，这样的计算通常面临指数信噪比的挑战，即使对于下一代经典计算，也使关键的物理研究变得站不住脚。在这里，提出了一种方法，通过该方法，通过构造优化的插值算子，可以将嘈杂的中级量子时代硬件上的小规模量子计算输出用于加速大规模经典场论计算。该方法是在1 +1维Schwinger模型的背景下实施和研究的，该模型是一种简单的场论，与核和粒子物理学的标准模型具有关键特征。

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《Physical review letters》 |2020年第8期|080501.1-080501.6|共6页
作者
Avkhadiev A.; Shanahan P. E.; Young R. D.;
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MIT Ctr Theoret Phys Cambridge MA 02139 USA|Perimeter Inst Theoret Phys Waterloo ON N2L 2Y5 Canada;

Univ Adelaide Dept Phys CSSM Adelaide SA 5005 Australia;

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7. Accelerating Lattice Quantum Field Theory Calculations via Interpolator Optimization Using Noisy Intermediate-Scale Quantum Computing [O] . A. Avkhadiev, P. E. Shanahan, R. D. Young 2020

机译：利用噪声中间尺度量子计算通过插值器优化加速晶格量子场理论计算

Accelerating Lattice Quantum Field Theory Calculations via Interpolator Optimization Using Noisy Intermediate-Scale Quantum Computing

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