English

Polymer Physics by Quantum Computing

Soft Condensed Matter 2021-08-25 v1 Statistical Mechanics Quantum Physics
Authors: Cristian Micheletti , Philipp Hauke , Pietro Faccioli
View on arXiv PDF DOI

Abstract

Sampling equilibrium ensembles of dense polymer mixtures is a paradigmatically hard problem in computational physics, even in lattice-based models. Here, we develop a formalism based on interacting binary tensors that allows for tackling this problem using quantum annealing machines. Our approach is general in that properties such as self-avoidance, branching, and looping can all be specified in terms of quadratic interactions of the tensors. Microstates realizations of different lattice polymer ensembles are then seamlessly generated by solving suitable discrete energy-minimization problems. This approach enables us to capitalize on the strengths of quantum annealing machines, as we demonstrate by sampling polymer mixtures from low to high densities, using the D-Wave quantum computer. Our systematic approach offers a promising avenue to harness the rapid development of quantum computers for sampling discrete models of filamentous soft-matter systems.

Keywords

quantum annealing quantum computation quantum algorithms

Cite

@article{arxiv.2104.10102,
  title  = {Polymer Physics by Quantum Computing},
  author = {Cristian Micheletti and Philipp Hauke and Pietro Faccioli},
  journal= {arXiv preprint arXiv:2104.10102},
  year   = {2021}
}

Comments

Supplementary Material Included

Related papers

View all related →
Quantum Physics · Physics
Programmable Quantum Annealers as Noisy Gibbs Samplers
Marc Vuffray, Carleton Coffrin, Yaroslav A. Kharkov, Andrey Y. Lokhov
2022-10-13
Quantum Physics · Physics
Parallel Quantum Annealing
Elijah Pelofske, Georg Hahn, Hristo N. Djidjev
2022-11-30
Quantum Physics · Physics
Quantum Annealing Algorithms for Boolean Tensor Networks
Elijah Pelofske, Georg Hahn, Daniel O'Malley, Hristo N. Djidjev +1
2022-05-24
Quantum Physics · Physics
Quantum annealing and condensed matter physics
Viv Kendon, Nicholas Chancellor
2026-04-09
Quantum Physics · Physics
Quantum Annealing Feature Selection on Light-weight Medical Image Datasets
Merlin A. Nau, Luca A. Nutricati, Bruno Camino, Paul A. Warburton +1
2025-02-27
Quantum Physics · Physics
Quantum Annealing for Industry Applications: Introduction and Review
Sheir Yarkoni, Elena Raponi, Thomas Bäck, Sebastian Schmitt
2022-10-05
Quantum Physics · Physics
Solving the Turbine Balancing Problem using Quantum Annealing
Arnold Unterauer, David Bucher, Matthias Knoll, Constantin Economides +5
2024-05-13
Optimization and Control · Mathematics
On Hybrid Quantum and Classical Computing Algorithms for Mixed-Integer Programming
Chin-Yao Chang, Eric Jones, Yiyun Yao, Peter Graf +1
2022-01-21
Quantum Physics · Physics
Quantum Annealing and Tensor Networks: a Powerful Combination to Solve Optimization Problems
Miquel Albertí Binimelis
2024-12-10
Quantum Physics · Physics
Using quantum annealing to design lattice proteins
Anders Irbäck, Lucas Knuthson, Sandipan Mohanty, Carsten Peterson
2024-02-15
Computation · Statistics
Applications of Quantum Annealing in Statistics
Robert C. Foster, Brian Weaver, James Gattiker
2019-11-21
Quantum Physics · Physics
Analyzing the Quantum Annealing Approach for Solving Linear Least Squares Problems
Ajinkya Borle, Samuel J. Lomonaco
2018-11-02
Quantum Physics · Physics
Quantum Annealing Formulation for Binary Neural Networks
Michele Sasdelli, Tat-Jun Chin
2021-07-07
Quantum Physics · Physics
Quantum Annealing with Qubit-Resonator Systems for Simultaneous Optimization of Binary and Continuous Variables
Seiya Endo, Shohei Kawakatsu, Hiromichi Matsuyama, Kohei Suzuki +1
2025-06-26
Quantum Physics · Physics
Accuracy and minor embedding in subqubo decomposition with fully connected large problems: a case study about the number partitioning problem
Luca Asproni, Davide Caputo, Blanca Silva, Giovanni Fazzi +1
2020-03-10
Quantum Physics · Physics
Folding lattice proteins with quantum annealing
Anders Irbäck, Lucas Knuthson, Sandipan Mohanty, Carsten Peterson
2022-10-13
Quantum Physics · Physics
Multi-disk clutch optimization using quantum annealing
John D. Malcolm, Alexander Roth, Mladjan Radic, Pablo Martin-Ramiro +4
2024-09-13
Information Theory · Computer Science
Quantum Annealing Based Binary Compressive Sensing with Matrix Uncertainty
Ramin Ayanzadeh, Seyedahmad Mousavi, Milton Halem, Tim Finin
2019-01-03
Quantum Physics · Physics
Scalable Quantum-Inspired Optimization through Dynamic Qubit Compression
Co Tran, Quoc-Bao Tran, Hy Truong Son, Thang N Dinh
2024-12-25
High Energy Physics - Phenomenology · Physics
Quantum tomography for collider physics: Illustrations with lepton pair production
John C. Martens, John P. Ralston, J. D. Tapia Takaki
2018-01-17
Quantum Physics · Physics
Benchmarking Quantum(-inspired) Annealing Hardware on Practical Use Cases
Tian Huang, Jun Xu, Tao Luo, Xiaozhe Gu +2
2022-09-27
Emerging Technologies · Computer Science
Using quantum annealing to generate test cases for cyber-physical systems
Hugo Araujo, Xinyi Wang, Mohammad Mousavi, Shaukat Ali
2025-05-01
High Energy Physics - Lattice · Physics
Quantum computing for lattice supersymmetry
Christopher Culver, David Schaich
2021-12-15
Quantum Physics · Physics
Unraveling Quantum Annealers using Classical Hardness
Victor Martin-Mayor, Itay Hen
2015-10-23
Data Structures and Algorithms · Computer Science
Performance of a Quantum Annealer for Ising Ground State Computations on Chimera Graphs
Michael Juenger, Elisabeth Lobe, Petra Mutzel, Gerhard Reinelt +3
2019-04-30