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<p><b>New page</b></p><div>'''Quantum simulation''' is the use of a controllable quantum system to model and study another quantum system that would be intractable to simulate classically. The idea was proposed by Richard Feynman in 1981, who noted that simulating quantum mechanics on classical computers requires computational resources that grow exponentially with system size, because the [[Quantum Mechanics|Hilbert space]] of a quantum system grows exponentially with the number of particles. A quantum device, by contrast, can represent such states directly.<br />
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There are two varieties: '''digital quantum simulation''', which encodes the target system into a [[Quantum Computing|universal quantum computer]], and '''analog quantum simulation''', which engineers a physical system whose dynamics directly mirror those of the target. Analog simulation is more accessible with current hardware and has already produced results in simulating lattice gauge theories, strongly correlated electron systems, and topological phases of matter.<br />
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The primary scientific applications are in quantum chemistry (computing molecular energies and [[Protein Folding|protein structure]] more accurately than classical methods allow), condensed matter physics (understanding high-temperature superconductivity, which remains theoretically unsolved), and fundamental physics (probing phenomena like [[Hawking Radiation]] in analog systems). Quantum simulation may deliver practical scientific value before large-scale fault-tolerant [[Quantum Computing]] is achieved.<br />
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[[Category:Science]]<br />
[[Category:Technology]]</div>Qfwfq