Efekan Kokcu

College of Sciences

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Works (4)

Updated: June 18th, 2024 05:04

2024 journal article

A linear response framework for quantum simulation of bosonic and fermionic correlation functions

NATURE COMMUNICATIONS, 15(1).

By: E. Kokcuⁿ, H. Labibⁿ, J. Freericks ^* & A. Kemper ⁿ

10.1038/s41467-024-47729-z

Find Text @ NCSU

www.nature.com (publisher PDF)

Sources: Web Of Science, ORCID, NC State University Libraries

Added: May 15, 2024

2023 journal article

Mapping the metal-insulator phase diagram by algebraically fast-forwarding dynamics on a cloud quantum computer

PHYSICAL REVIEW RESEARCH, 5(2).

By: T. Steckmann ⁿ, T. Keen ^*, E. Kokcuⁿ, A. Kemper ⁿ, E. Dumitrescu ^* & Y. Wang ^*

TL;DR: This work presents the first computation of the Mott phase transition using noisy digital quantum hardware, made viable by a highly optimized computation in terms of gate depth, simulation error, and runtime on quantum hardware. (via Semantic Scholar)

10.1103/PhysRevResearch.5.023198

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link.aps.org (publisher PDF)

Sources: Web Of Science, NC State University Libraries, ORCID

Added: August 28, 2023

2022 journal article

AN ALGEBRAIC QUANTUM CIRCUIT COMPRESSION ALGORITHM FOR HAMILTONIAN SIMULATION

SIAM JOURNAL ON MATRIX ANALYSIS AND APPLICATIONS, 43(3), 1084–1108.

By: D. Camps ^*, E. Kokcou, L. Bassmanⁿ, W. De Jong ^*, A. Kemper ⁿ & R. Van Beeumen ^*

author keywords: quantum computing; quantum circuit synthesis; algebraic circuit compression; Hamiltonian simulation; free fermions; NISQ

TL;DR: This work derives localized circuit transformations to efficiently compress quantum circuits for simulation of certain spin Hamiltonians known as free fermions and produces quantum circuits that have a simple nearest-neighbor topology, which makes them ideally suited for NISQ devices. (via Semantic Scholar)

10.1137/21M1439298

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arxiv.org (repository)

Sources: Web Of Science, ORCID, NC State University Libraries

Added: August 4, 2022

2022 journal article

Algebraic compression of quantum circuits for Hamiltonian evolution

PHYSICAL REVIEW A, 105(3).

By: E. Kokcuⁿ, D. Camps ^*, L. Bassman ^*, J. Freericks ^*, W. Jong ^*, R. Van Beeumen ^*, A. Kemper ⁿ

TL;DR: An algorithm is presented that compresses the Trotter steps into a single block of quantum gates that results in a fixed depth time evolution for certain classes of Hamiltonians. (via Semantic Scholar)

10.1103/PhysRevA.105.032420

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arxiv.org (repository)

UN Sustainable Development Goal Categories

9. Industry, Innovation and Infrastructure (Web of Science)

Sources: Web Of Science, NC State University Libraries, ORCID

Added: April 4, 2022

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Efekan Kokcu

Works (4) 4 open access

Works (4)