Algorithms2014

A Variational Eigenvalue Solver on a Photonic Quantum Processor

लेखक: Alberto Peruzzo, Jarrod McClean, Peter Shadbolt, Man-Hong Yung, Xiao-Qi Zhou, Peter J. Love, Alán Aspuru-Guzik, Jeremy L. O'Brien

प्रकाशित: Nature Communications 5, 4213 (2014)

एक वाक्य में

Introduces the Variational Quantum Eigensolver, a hybrid quantum-classical method for finding ground-state energies on noisy hardware.

मुख्य बिंदु

  • Splits the work: a shallow quantum circuit prepares trial states, a classical optimizer tunes its parameters.
  • Short circuits make it far more tolerant of noise than fully quantum approaches like phase estimation.
  • Demonstrated on a photonic processor computing the ground-state energy of helium hydride.

सरल भाषा में

Finding a molecule's lowest energy state exactly would need a big, error-corrected quantum computer we do not have. VQE sidesteps that by making the quantum computer do only the part it is uniquely good at. A short quantum circuit with adjustable knobs prepares a guess at the molecule's state and measures its energy; a perfectly ordinary classical optimizer then suggests better knob settings; repeat until the energy stops dropping. Because each quantum circuit is brief, errors have little time to accumulate — which is exactly why this became the workhorse algorithm of the noisy-hardware era.

यह क्यों मायने रखता है

VQE is the archetypal NISQ algorithm and the most-attempted application on today's hardware. Nearly every quantum-chemistry and materials experiment on current devices is a descendant of this paper.

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