Aproximaciones De Born-Oppenheimer Y Hartree-Fock Aplicadas A Campos Cuánticos Relativistas. Volumen I

Théotime Girardot, Derivation of the Hartree dynamics for a N-particles fermionic

D system interacting via long-range electric and magnetic two-body singular potentials in a dilute regime, arXiv:2507.16300v1 [math-ph] 22 Jul 2025.

Rabah Abdelmouheymen KHAMADJA, FROM VQE TO SQD : MODERN QUANTUM ALGORITHMS FOR ELECTRONIC STRUCTURE PROBLEMS, arXiv:2509.21555v1 [quant-ph] 25 Sep 2025.

Simon H. Hille y Attila Szabó, TeMFpy: a Python library for converting fermionic mean-field states into tensor networks, arXiv:2510.05227v1 [cond-mat.str-el] 6 Oct 2025.

Paul A. Johnson, Charles-Émile Fecteau, Samuel Nadeau, Mauricio Rodríguez-Mayorga y Pierre-François Loos, Connections between Richardson-Gaudin States, Perfect-Pairing, and Pair Coupled-Cluster Theory, arXiv:2510.06144v1 [physics.chem-ph] 7 Oct 2025.

Alfred Li, Ankit Mahajan y Sandeep Sharma, Fokker-Planck equation governing the distribution of walkers in AFQMC, arXiv:2510.19914v1 [physics.chem-ph] 22 Oct 2025.

Gerald V. Dunne, Slater Decomposition of Laughlin States, arXiv:cond-mat/9306022v1 8 Jun 1993.

Håkon Emil Kristiansen, Håkon Kvernmoen, Simen Kvaal y Thomas Bondo Pedersen, Configuration weights in coupled-cluster theory, arXiv:2411.00690v2 [physics.chem-ph] 27 Feb 2025.

Yuri Alexandre Aoto y Márcio Fabiano da Silva, Calculating the distance from an electronic wave function to the manifold of Slater determinants through the geometry of Grassmannians, arXiv:2012.05283v1 [quant-ph] 9 Dec 2020.

Bin Yan, Rachel E. Wooten, Kevin M. Daily y Chris H. Greene, Hyperspherical Slater determinant approach to few-body fractional quantum Hall states, arXiv:1611.05305v1 [cond-mat.str-el] 16 Nov 2016.

Clemens Giuliani, Jannes Nys, Rocco Martinazzo, Giuseppe Carleo y Riccardo Rossi, Precise Quantum Chemistry calculations with few Slater Determinants, arXiv:2503.14502v2 [physics.chem-ph] 2 May 2025.

Chong Hian Chee, Daniel Leykam, Adrian M. Mak y Dimitris G. Angelakis, Shallow quantum circuits for efficient preparation of Slater determinants and correlated states on a quantum computer, arXiv:2301.07477v5 [quant-ph] 26 Jul 2023.]

PIETRO SILVI, DAVIDE ROSSINI, ROSARIO FAZIO, GIUSEPPE E. SANTORO y VITTORIO GIOVANNETTI, Matrix Product State representation for Slater Determinants and Configuration Interaction States, arXiv:1205.4154v2 [quant-ph] 5 Nov 2012.

CHIARA BOCCATO, FRANCESCA PIERONI y DARIO TREVISAN, ON DISTANCES AMONG SLATER DETERMINANT STATES AND DETERMINANTAL POINT PROCESSES, arXiv:2504.08971v1 [math-ph] 11 Apr 2025.

John Kearney, Hojin Yoo y Kathryn M. Zurek, Is a Higgs Vacuum Instability Fatal for High-Scale Inflation, arXiv:1503.05193v1 [hep-th] 17 Mar 2015.

G. F. Bertsch y L. M. Robledo, Symmetry Restoration in Hartree-Fock-Bogoliubov Based

Theories, Phys. Rev. Lett. 108, 042505 — Published 26 January 2012.

S.V. Molodtsov y G.M. Zinovjev, Bogolyubov-Hartree-Fock approach to studying the QCD ground state, arXiv:0811.4405v3 [hep-ph] 11 Aug 2009.

Marcel Griesemer y Fabian Hantsch, Unique Solutions to Hartree-Fock Equations for Closed Shell Atoms, arXiv:1012.5179v1 [math-ph] 23 Dec 2010.

Niels Benedikter, Effective Dynamics of Interacting Fermions from Semiclassical Theory to the Random Phase Approximation, arXiv:2203.11255v3 [math-ph] 5 Jul 2022.

P. A. M. Guichon, J. R. Stone y A. W. Thomas, Hartree-Fock Formulation of the QMC Model at Finite Temperature, arXiv:2310.19262v1 [nucl-th] 30 Oct 2023.

Ettore Vitali, Peter Rosenberg y Shiwei Zhang, Monte Carlo Methods in the Manifold of Hartree-Fock-Bogoliubov Wave Functions, arXiv:2409.11571v1 [cond-mat.str-el] 17 Sep 2024.

Stefan Vuckovic, John Kozlowski y Kieron Burke, Density functional analysis: The theory of density-corrected DFT, arXiv:1908.05721v1 [physics.chem-ph] 15 Aug 2019.

I. C. Danchev, A. N. Antonov, D. N. Kadrev, M. K. Gaidarov, P. Sarriguren y E. Moya de Guerra, Symmetry energy properties of neutron-rich nuclei from the coherent density fluctuation model applied to nuclear matter calculations with Bonn potentials, arXiv:2006.01471v1 [nucl-th] 2 Jun 2020.

CYRIL MALE ́ZE ́, SCATTERING FOR THE ONE DIMENSIONAL HARTREE FOCK EQUATION, arXiv:2406.17715v3 [math.AP] 10 Mar 2025.

Google AI Quantum and Collaborators, Hartree-Fock on a superconducting qubit quantum computer, arXiv:2004.04174v2 [quant-ph] 20 Apr 2020.

SOHEI ASHIDA, CONVERGENCE OF SCF SEQUENCES FOR THE HARTREE-FOCK EQUATION, arXiv:2205.10300v4 [math.AP] 25 Jan 2023.

Nikolai Kaschewski y Axel Pelster, The Weighted Hartree-Fock-Bogoliubov method for interacting fermions: An application to ultracold Fermi superfluids, arXiv:2508.18801v1 [cond-mat.quant-gas] 26 Aug 2025.

Andreas Erbs Hillers-Bendtsen y Todd J. Martinez, Accelerating Hartree-Fock and Density Functional Theory Calculations using Tensor Hypercontraction. (arXiv)

Federico Rossi y Henrik Koch, Convex Hartree-Fock theory: A simple framework for ground state conical intersections, arXiv:2508.21453v1 [physics.chem-ph] 29 Aug 2025.

Yaolong Zhang, Bin Jiang y Hua Guo, SchrödingerNet: A Universal Neural Network Solver for The Schrödinger Equation. (arXiv)

Jong-Kwon Ha y Ryan J. MacDonell, Supplemental Material for Analog Quantum Simulation of Coupled Electron-Nuclear Dynamics in Molecules. (arXiv)

Xuezhi Bian, Yanze Wu, Tian Qiu, Tao Zhen y Joseph E. Subotnik, A semiclassical non-adiabatic phase-space approach to molecular translations and rotations: A new picture of surface hopping and electronic inertial effects, arXiv:2410.01156v1 [physics.chem-ph] 2 Oct 2024.

Jan Biedermann y Lukas Janssen, Dirac quantum criticality in twisted double bilayer transition metal dichalcogenides, arXiv:2509.04561v1 [cond-mat.mes-hall] 4 Sep 2025.

Pujita Das, Parth Bahuguna, Tulika Maitra y Narayan Mohanta, Superconducting pairing symmetries in charge-ordered kagomé metals, arXiv:2509.04571v1 [cond-mat.supr-con] 4 Sep 2025.

Rahul Ghosh, Quantum Phases in a Two-Dimensional Generalized interacting SSH Model, arXiv:2509.05655v1 [cond-mat.str-el] 6 Sep 2025.

E. Rule, I. A. Chernyshev, I. Stetcu, J. Carlson y R. Weiss, Recursive algorithm for constructing antisymmetric fermionic states in first quantization mapping, arXiv:2509.07279v1 [quant-ph] 8 Sep 2025.

Giorgio Visentin y François Mauger, Configuration-interaction calculations with density-functional theory molecular orbitals for modeling valence- and core-excited states in molecules, arXiv:2509.08245v1 [physics.chem-ph] 10 Sep 2025.

M. Rothman, B. Johnson-Toth, G. Hagen, M. Heinz y T. Papenbrock, NuLattice: Ab initio computations of atomic nuclei on lattices, arXiv:2509.08771v1 [nucl-th] 10 Sep 2025.

Bilal Hawashin, Julian Kleeschulte, David Kurz y Michael M. Scherer, Relativistic Mott transition, high-order van Hove singularity, and mean-field phase diagram of twisted double bilayer WSe2, arXiv:2509.09398v1 [cond-mat.mes-hall] 11 Sep 2025.

Usuf Rahaman, Investigation of ground state properties and shape evolution in Hf isotopes using the CDFT approach, arXiv:2509.12565v1 [nucl-th] 16 Sep 2025.

Ibrahim E. Awad, Abd Al-Aziz A, Abu-Saleh, Gurleen Cheema, Joshua W. Hollett y Raymond A. Poirier, Atomic Radial Correlation Energy Density Components, arXiv:2509.12580v1 [physics.chem-ph] 16 Sep 2025.

Shi-jing, Suo Qiu, H. Sagawa y Xian-Rong Zhou, Charge symmetry breaking effect in mirror Λ hypernuclei with Skyrme-Hartree-Fock model, arXiv: 2509.13655v2 [nucl-th] 23 Oct 2025.

Félix Desrochers, Joe Huxford, Mark R. Hirsbrunner y Yong Baek Kim, Electronic Crystal Phases in the Presence of Non-Uniform Berry Curvature and Tunable Berry Flux : TheλN-Jellium model, isoarXiv: 2509.15300v1 [cond-mat.str-el] 18 Sep 2025.

Xuan Zeng, Ru-You Zheng, Zhi-Wei Liu, Li-Sheng Geng y Xian-Rong Zhou, Hypernuclear structure with the new leading order covariant chiral hyperon-nucleon force, arXiv:2509.16878v1 [nucl-th] 21 Sep 2025.

Xin Lu, Yuanfan Yang, Zhongqing Guo y Jianpeng Liu, General Many-Body Perturbation Framework for Moiré Systems, arXiv:2509.19764v3 [cond-mat.str-el] 22 Oct 2025.

Jian Kang, Minxuan Wang y Oskar Vafek, Orbital magnetization and magnetic susceptibility of interacting electrons, therearXiv: 2509.20626v1 [cond-mat.str-el] 25 Sep 2025.

Alan A. Dzhioev y N. V. Antonenko, Isoenergetic description of induced fission pathways within energy-density functional theory, arXiv:2509.22006v1 [nucl-th] 26 Sep 2025.

Hopersky A.N, Nadolinsky A.M, Novikov S.A y Koneev R.V, Two-photon ionization of the K-shell of a heavy beryllium-like atomic ion. (arXiv)

Peyman Najafi, Aaron Villanueva y Hilbert Kappen, Path Integral Quantum Control for Quantum Chemistry Applications, arXiv:2509.24104v1 [quant-ph] 28 Sep 2025.

R. Folprecht, Knapp,1 G. De Gregorio, R. Mancino, P. Vesely y N. Lo Iudice, Bulk and spectroscopic nuclear properties within an ab initio renormalized random-phase approximation framework, arXiv:2510.00878v1 [nucl-th] 1 Oct 2025.

Xiaoyu Liu, Chong Wang, Xiao-Wei Zhang, Ting Cao y Di Xiao, Orbital Magnetization in Correlated States of Twisted Bilayer Transition Metal Dichalcogenides, efarXiv: 2510.01727v1 [cond-mat.mes-hall] 2 Oct 2025.

Yanek Verghis, Denis Sedov, Jakob Weßling, Prathyush P. Poduval y Mathias S. Scheurer, Vestigial pairing from fluctuating magnetism and triplet superconductivity, arXiv:2510.02474v1 [cond-mat.supr-con] 2 Oct 2025.

Nicolau Sobrosa, Miguel Goncalvez, Eduardo V. Castro, Pedro Ribeiro y Bruno Amorim, Ground state and excitations of quasiperiodic 1D narrow-band moiré systems – a mean field approach, inarXiv: 2510.04132v1 [cond-mat.str-el] 5 Oct 2025.

Claudia D. Alvarado, Eduardo Chiumiento, Homogeneous spaces in Hartree-Fock-Bogoliubov theory, arXiv:2402.15606v1 [math.FA] 23 Feb 2024.

A. I.Komech, On the Hartree-Fock dynamics in wave-matrix picture, arXiv:1407.5208v4 [math-ph] 4 Jun 2015.

Sahil Gulania, Stephen K. Gray, Yuri Alexeev, Bo Peng y Niranjan Govind, Hybrid algorithm for the time-dependent Hartree–Fock method using the Yang–Baxter equation on quantum computers, arXiv:2309.00737v1 [quant-ph] 1 Sep 2023.

James Daniel Whitfield y Zoltán Zimborás, On the NP-completeness of the Hartree-Fock method for translationally invariant systems, arXiv:1408.3459v2 [quant-ph] 30 Dec 2014.

B. R. Quea, J. M. Zhang, H. F. Song y Y. Liu, Hartree-Fock approximation for bosons with symmetry-adapted variational wave functions, arXiv:2502.15863v1 [cond-mat.quant-gas] 21 Feb 2025.

Jia Liu, Yi Fei Niu y Wen Hui Long, Configuration-interaction relativistic Hartree-Fock model, arXiv:2411.05370v3 [nucl-th] 11 Apr 2025.

CHARLES COLLOT, ELENA DANESI, ANNE-SOPHIE DE SUZZONI y CYRIL MALEZE, STABILITY OF HOMOGENEOUS EQUILIBRIA OF THE HARTREE-FOCK EQUATION, FOR ITS EQUIVALENT FORMULATION FOR RANDOM FIELDS, arXiv:2310.03442v2 [math.AP] 15 Oct 2024.

Ichio Kikuchi y Akihito Kikuchi, Symbolic, numeric and quantum computation of Hartree-Fock equation, arXiv:2401.00019v2 [quant-ph] 18 Jun 2024.

Amir Ayati, Hugh G. A. Burton y Stijn De Baerdemacker, Spin-Symmetry Projected constrained Unrestricted Hartree–Fock, arXiv:2412.16458v1 [quant-ph] 21 Dec 2024.

Alexis Ralli, Tim Weaving, Peter V. Coveney y Peter J. Love, Bridging Quantum Chemistry and MaxCut: Classical Performance Guarantees and Quantum Algorithms for the Hartree-Fock Method, arXiv:2506.04223v1 [quant-ph] 4 Jun 2025.

Vlad-Mihai Ene, Ilinca Lianu y Ioan Grosu, Hartree-Fock approximation for non-Coulomb

interactions in three and two-dimensional systems, arXiv:2408.14967v1 [cond-mat.quant-gas] 27 Aug 2024.

Matteo Castagnola, Rosario R. Riso, Yassir El Moutaoukal y Enrico Ronca, Strong coupling quantum electrodynamics Hartree-Fock response theory, arXiv:2502.14511v1 [physics.chem-ph] 20 Feb 2025.

Klaas Giesbertz, Hartree–Fock & Density Functional Theory, arXiv:2010.10243v2 [physics.ed-ph] 7 Feb 2023.

Fei Xu, Multilevel correction type of adaptive finite element method for Hartree–Fock equation, arXiv:2510.10879v1 [math.NA] 13 Oct 2025.

Sunilkumar V. Rajat, Sandeep Gautam y Arko Roy, Finite-temperature phase diagram and collective modes of coherently coupled Bose mixtures, arXiv:2510.11671v1 [cond-mat.quant-gas] 13 Oct 2025.

N. Ebrahimian, Absorbed power in ultracold polarized Fermi mixtures at normal-superfluid separation phase: Mass-imbalanced effect. (arXiv).

Yasuhiro Tanaka y Hitoshi Seo, Photoinduced melting dynamics and collective mode in a correlated charge-order system, arXiv:2510.16855v1 [cond-mat.str-el] 19 Oct 2025.

Yulong Pan y Michael Lindsey, Fast adaptive discontinuous basis sets for electronic structure, arXiv:2510.21213v1 [physics.comp-ph] 24 Oct 2025.

Xuepeng Wang, Johannes S. Hofmann y Debanjan Chowdhury, Intertwined Orders, Quantum Criticality and Skyrmions in Tunable Topological Bands, arXiv:2510.21913v1 [cond-mat.str-el] 24 Oct 2025.

Fei Xu, Effective approximations for Hartree–Fock exchange potential, arXiv:2509.00733v1 [physics.chem-ph] 31 Aug 2025.

Paul Haubenwallner y Matthias Heller, Fully numerical Hartree-Fock calculations for atoms and small molecules with quantics tensor trains, arXiv:2503.08430v2 [physics.chem-ph] 11 Jun 2025.

Ericka Roy Miller y Shane M. Parker, Numerically Stable Resonating Hartree-Fock, arXiv:2411.00712v2 [physics.chem-ph] 13 Mar 2025.

E. Langmann y J. Lenells, Update of Hartree–Fock theory for Hubbard-like models, arXiv:2506.16525v1 [cond-mat.str-el] 19 Jun 2025.

Volker Bach, Hartree–Fock Theory, Lieb’s Variational Principle and their Generalizations, arXiv:2209.10189v1 [quant-ph] 21 Sep 2022.

D. S. Rosa, T. Frederico, R. M. Francisco y G. Krein, Reliability of the Born-Oppenheimer

approximation in noninteger dimensions, arXiv:2408.01776v1 [cond-mat.quant-gas] 3 Aug 2024.

X. L. Huang, S. L. Wu, L. C. Wang y X. X. Yi, Born-Oppenheimer approximation for open quantum systems within the quantum trajectory approach, arXiv:1003.1177v2 [quant-ph] 17 Apr 2010.

Haci Akbas y O. Teoman Turgut, Born-Oppenheimer Approximation for a Singular System, arXiv:1602.02811v2 [math-ph] 29 Mar 2016.

John Bonini, Iman Ahmadabadi y Johannes Flick, Cavity-Born Oppenheimer Approximation for Molecules and Materials via Electric Field Response, reasonarXiv: 2407.14613v1 [physics.chem-ph] 19 Jul 2024.

Marit R. Fiechter y Jeremy O. Richardson, Understanding the Cavity Born–Oppenheimer Approximation, arXiv:2401.03532v1 [physics.chem-ph] 7 Jan 2024.

Haowu Duan, Alex Kovner y Michael Lublinsky, Born-Oppenheimer Renormalization group for High Energy Scattering: the Setup and the Wave Function, arXiv:2412.05085v1 [hep-ph] 6 Dec 2024.

Haowu Duan, Alex Kovner y Michael Lublinsky, Born-Oppenheimer Renormalization group for High Energy Scattering: CSS, DGLAP and all that, arXiv:2412.05097v1 [hep-ph] 6 Dec 2024.

Anjiao Gu y Shi Jin, Quantum simulation of a class of highly-oscillatory transport equations via Schrödingerisation, arXiv:2501.10176v2 [math.NA] 4 Sep 2025.

D. Germani, B. Grinstein y A.D. Polosa, Tetraquarks in the Born-Oppenheimer approximation, arXiv:2501.13249v2 [hep-ph] 3 Apr 2025.

Jakob Hoffmann, Lasse Müller y Marc Wagner, arXiv:2501.16188v1 [hep-lat] 27 Jan 2025.

Galit Cohen, Rachel Steinitz-Eliyahu, E. K. U. Gross, Sivan Refaely-Abramson y Ryan Requist, Non-adiabaticity from first principles: the exact-factorization approach for solids, arXiv:2502.07439v1 [cond-mat.mtrl-sci] 11 Feb 2025.

Robert Stanton, Mehmet Cagri Kaymak y Anders M. N. Niklasson, Shadow Molecular Dynamics for a Charge-Potential Equilibration Model, arXiv:2502.09602v1 [physics.chem-ph] 13 Feb 2025.

Max Hays, Junghyun Kim y William D. Oliver, Non-degenerate noise-resilient superconducting qubit, arXiv:2502.15459v1 [quant-ph] 21 Feb 2025.

Kamran Behnia, Phonon thermal Hall as a lattice Aharonov-Bohm effect, arXiv:2502.18236v5 [cond-mat.mes-hall] 29 Sep 2025.

Muhammad Naeem Anwar, arXiv:2502.20329v1 [hep-ph] 27 Feb 2025.

Richard F. Lebed y Steven R. Martinez, Meson-Meson Molecular Binding Potentials in the Diabatic Dynamical Diquark Model, arXiv:2502.20567v2 [hep-ph] 15 Apr 2025.

Ville J Harkonen, Beyond Born-Oppenheimer Green’s function theories: absolute and relational, arXiv:2503.01417v1 [cond-mat.other] 3 Mar 2025.

Aleksander P. Wozniak, Ludwik Adamowicz, Thomas Bondo Pedersen y Simen Kvaal, Rothe Time Propagation for Coupled Electronic and Rovibrational Quantum Dynamics, arXiv:2503.09813v1 [physics.chem-ph] 12 Mar 2025.

A. Becker, G. M. Koutentakis y P. Schmelcher, Dynamical probe of the pseudo Jahn-Teller effect in one-dimensional confined fermions, arXiv:2503.09835v2 [cond-mat.quant-gas] 24 Jun 2025.

Hervé Bergeron, Przemysław Małkiewicz y Patrick Peter, Non-Gaussianities as a Signature of Quantumness of Quantum Cosmology, arXiv:2503.14570v1 [gr-qc] 18 Mar 2025.

Bowen Kang, Xi Xia y Tao Guo, Hidden heavy flavor tetraquarks in the Born-Oppenheimer approximation, arXiv:2503.10173v2 [hep-ph] 6 Apr 2025.

Kiyoharu Kawana, Phases and propagation of closed p-brane, arXiv:2503.14902v1 [hep-th] 19 Mar 2025.

Mirko Daumann y Thomas Dahm, Particle pairing causes subdiffusion of heavy particles in the imbalanced Hubbard model, arXiv:2503.15409v2 [cond-mat.stat-mech] 22 Jul 2025.

Thomas Schnappinger y Markus Kowalewski, Molecular Polarizability under Vibrational Strong Coupling, arXiv:2503.17102v1 [physics.chem-ph] 21 Mar 2025.

Nadine C. Bradbury, Titouan Duston, Zhen Tao, Jonathan I. Rawlinson, Robert Littlejohn y Joseph Subotnik, Symmetry Breaking as Predicted by a Phase Space Hamiltonian with a Spin Coriolis Potential, arXiv:2504.03100v2 [physics.chem-ph] 28 May 2025.

Rhiannon A. Zarotiadis, Joseph E. Lawrence y Jeremy O. Richardson, Nonadiabatic ring-polymer instanton rate theory: a generalized dividing-surface approach, arXiv:2505.04770v1 [physics.chem-ph] 7 May 2025.

David Linteau, Saverio Moroni, Giuseppe Carleo y Markus Holzmann, Universal neural wave functions for high-pressure hydrogen, arXiv:2504.07062v1 [cond-mat.str-el] 9 Apr 2025.

Yaser Tavakoli, Ahad Khaleghi Ardabili y Sara Mosaddegh, Fermions in a loop quantum cosmological spacetime, arXiv:2505.06695v2 [gr-qc] 30 Sep 2025.

S. GHERGHE, I. MOYANO y I.M. SIGAL, ON THE TIME-DEPENDENT BORN-OPPENHEIMER APPROXIMATION, arXiv:2505.18701v1 [quant-ph] 24 May 2025.

Lei Liu, Yanmei Xiao y Tao Guo, Hydrogen-like structures in the strong interaction, arXiv:2505.22177v1 [hep-ph] 28 May 2025.

Simon Euchner y Igor Lesanovsky, Rydberg atom arrays as quantum simulators for molecular dynamics, arXiv:2506.09865v1 [quant-ph] 11 Jun 2025.

Titouan Duston, Nadine Bradbury, Zhen Tao y Joseph E. Subotnik, Conical Intersections and Electronic Momentum As Viewed From Phase Space Electronic Structure Theory, arXiv:2506.11963v1 [physics.chem-ph] 13 Jun 2025.

Maxime Labat, Guillaume Jeanmairet y Emmanuel Giner, Prediction of the aqueous redox properties of functionalized quinones using a new QM/MM variational formulation, arXiv:2506.12448v1 [physics.chem-ph] 14 Jun 2025.

CLAUDIO CACCIAPUOTI, ANDREA POSILICANO y HAMIDREZA SABERBAGHI, THE BORN-OPPENHEIMER APPROXIMATION FOR A 1D 2+1 PARTICLE SYSTEM WITH ZERO-RANGE INTERACTIONS, arXiv:2506.21457v1 [math-ph] 26 Jun 2025.

Eric W. Fischer, Cavity Born-Oppenheimer Coupled Cluster Theory: Towards Electron Correlation in the Vibrational Strong Light-Matter Coupling Regime, arXiv:2507.10100v2 [physics.chem-ph] 4 Sep 2025.

Olimpia Lombardi, Sebastian Fortin, Juan Camilo Martínez González y Hernán Accorinti, What are we talking about when we discuss the Born-Oppenheimer approximation. (arXiv)

LINO BENEDETTO, QUANTUM ERGODICITY FOR CONTACT METRIC STRUCTURES, arXiv:2507.18216v3 [math.AP] 18 Sep 2025.

O. Jonathan Fajen, Oscar Granas, Todd J. Martinez y Anders M. N. Niklasson, Shadow excited state molecular dynamics with the ΔSCF method, arXiv:2507.21461v1 [physics.chem-ph] 29 Jul 2025.

Kratika Mazde, Lisa Mickel y Patrick Peter, Quantum cosmological background superposition and perturbation predictions, arXiv:2508.06231v1 [gr-qc] 8 Aug 2025.

Dil K. Limbu, Sandip Bhusal, Diana M. Castaneda-Bagatella y Farnaz A. Shakib, Diagonal Born–Oppenheimer Corrections in Condensed-Phase Ring Polymer Surface Hopping, arXiv:2509.10629v1 [physics.chem-ph] 12 Sep 2025.

Morris Brooks y David Mitrouskas, Adiabatic Klein–Gordon Dynamics for the Renormalized Nelson Model, arXiv:2509.14226v1 [math-ph] 17 Sep 2025.

Xiaohan Dan, Zhuoran Long, Tianyin Qiu, Jan Paul Menzel, Qiang Shi y Victor Batista, Nonadiabatic H-Atom Scattering Channels on Ge(111) Elucidated by the Hierarchical Equations of Motion, arXiv:2509.16916v1 [cond-mat.mtrl-sci] 21 Sep 2025.

Julian Stetzler, Sophya Garashchuk y Vitaly Rassolov, Factorized electron-nuclear dynamics with effective complex potential: on-the-fly implementation for H+2 in a laser field, arXiv:2510.07483v1 [physics.chem-ph] 8 Oct 2025.

Nora Brambilla, Gast~ao Krein, Jaume Tarrus Castella y Antonio Vairo, The Born-Oppenheimer approximation in an e_ective _eld theory language, arXiv:1707.09647v2 [hep-ph] 22 Jan 2018.

Bernardo Barrera, Daniel P. Arovas, Anushya Chandran y Anatoli Polkovnikov, The Moving Born-Oppenheimer Approximation, arXiv:2502.17557v2 [quant-ph] 7 Apr 2025.

Jakob Gunther, Alberto Baiardi, Markus Reiher y Matthias Christandl, More quantum chemistry with fewer qubits, arXiv:2308.16873v4 [quant-ph] 3 Nov 2024.

Ludwig Nutzel, Alexander Gresch, Lukas Hehn, Lucas Marti,1 Robert Freund, Alex Steiner, Christian D. Marciniak, Timo Eckstein, Nina Stockinger, Stefan Wolf, Thomas Monz, Michael Kuhn y Michael J. Hartmann, Solving an Industrially Relevant Quantum Chemistry Problem on Quantum Hardware, alarXiv: 2408.10801v1 [quant-ph] 20 Aug 2024.

Dominic W. Berry, M_aria Kieferov, Artur Scherer, Yuval R. Sanders, Guang Hao Low, Nathan Wiebe, Craig Gidney y Ryan Babbush, Improved Techniques for Preparing Eigenstates of Fermionic Hamiltonians, arXiv:1711.10460v2 [quant-ph] 21 Dec 2017.

Dave Wecker, Bela Bauer, Bryan K. Clark, Matthew B. Hastings y Matthias Troyer, Can quantum chemistry be performed on a small quantum computer?, arXiv:1312.1695v2 [quant-ph] 6 Jan 2014.

Yangjun Wu, Xiansong Xu, Dario Poletti, Yi Fan, Chu Guo y Honghui Shang, A real neural network state for quantum chemistry, afarXiv: 2301.03755v1 [quant-ph] 10 Jan 2023.

Ka-Wa Yip, Kubra Yeter-Aydeniz y Sijia S. Dong, Variational Quantum Annealing for Quantum Chemistry, arXiv:2503.15473v1 [quant-ph] 19 Mar 2025.

Jonathan Romero, Ryan Babbush, Jarrod R. McClean, Cornelius Hempel, Peter Love y Alan Aspuru-Guzik, Strategies for quantum computing molecular energies using the unitary coupled cluster ansatz, arXiv:1701.02691v2 [quant-ph] 10 Feb 2018.

Mario Motta y Julia E. Rice, Emerging quantum computing algorithms for quantum chemistry, arXiv:2109.02873v2 [quant-ph] 13 Nov 2021.

Matthew Otten, Matthew R. Hermes, Riddhish Pandharkar, Yuri Alexeev, Stephen K. Gray y Laura Gagliardi, Localized Quantum Chemistry on Quantum Computers, arXiv: 2203.02012v1 [quant-ph] 3 Mar 2022.

Mohammad Haidar, Hugo D. Nogueira y Jean-Philippe Karr, Quantum Computing Approach to Atomic and Molecular Three-Body Systems, arXiv:2510.18005v1 [quant-ph] 20 Oct 2025.

Zhong-Xia Shang, Han-Sen Zhong, Yu-Kun Zhang, Cheng-Cheng Yu, Xiao Yuan, Chao-Yang Lu, Jian-Wei Pan y Ming-Cheng Chen, Boson sampling enhanced quantum chemistry, arXiv: 2403.16698v2 [quant-ph] 18 Apr 2024.

Juan Miguel Arrazola, Olivia Di Matteo, Nicolas Quesada, Soran Jahangiri, Alain Delgado y Nathan Killoran, Universal quantum circuits for quantum chemistry, arXiv:2106.13839v2 [quant-ph] 10 Jun 2022.

Tian Xue, Jacob P. Covey y Matthew Otten, Efficient algorithms for quantum chemistry on modular quantum processors, arXiv:2506.13332v1 [quant-ph] 16 Jun 2025.

Seunghoon Lee, Joonho Lee, Huanchen Zhai, Yu Tong, Alexander M. Dalzell, Ashutosh Kumar, Phillip Helms, Johnnie Gray, Zhi-Hao Cui, Wen-Yuan Liu, Michael Kastoryano, Ryan Babbush, John Preskill, David R. Reichman, Earl T. Campbell, Edward F. Valeev, Lin Lin y Garnet Kin-Lic Chan, Is there evidence for exponential quantum advantage in quantum chemistry?, arXiv:2208.02199v3 [physics.chem-ph] 14 Nov 2022.

Ingrid von Glehn, James S. Spencer y David Pfau, A Self-Attention Ansatz for Ab-initio Quantum Chemistry, arXiv:2211.13672v2 [physics.chem-ph] 19 Apr 2023.

Yudong Cao, Jonathan Romero, Jonathan P. Olson, Matthias Degroote, Peter D. Johnson, Maria Kieferova, Ian D. Kivlichan, Tim Menke, Borja Peropadre, Nicolas P. D. Sawaya, Sukin Sim, Libor Veis y Alan Aspuru-Guzik, Quantum Chemistry in the Age of Quantum Computing, arXiv:1812.09976v2 [quant-ph] 28 Dec 2018.

Smik Patel, Praveen Jayakumar, Tzu-Ching Yen y Artur F. Izmaylov, Quantum Measurement for Quantum Chemistry on a Quantum Computer, arXiv:2501.14968v2 [quant-ph] 29 May 2025.

Stepan Fomichev, Kasra Hejazi, Modjtaba Shokrian Zini, Matthew Kiser, Joana Fraxanet, Pablo Antonio Moreno Casares, Alain Delgado, Joonsuk Huh, Arne-Christian Voigt, Jonathan E. Mueller y Juan Miguel Arrazola, Initial state preparation for quantum chemistry on quantum computers, arXiv:2310.18410v2 [quant-ph] 9 Feb 2024.

Samuele Piccinelli, Alberto Baiardi, Max Rossmannek, Almudena Carrera Vazquez, Francesco Tacchino, Stefano Mensa, Edoardo Altamura, Ali Alavi, Mario Motta, Javier Robledo-Moreno, William Kirby, Kunal Sharma, Antonio Mezzacapo y Ivano Tavernell.

Quantum chemistry with provable convergence via randomized sample-based quantum diagonalization, arXiv:2508.02578v1 [quant-ph] 4 Aug 2025.

Sam McArdle, Suguru Endo, Alan Aspuru-Guzik, Simon C. Benjamin y Xiao Yuan, Quantum computational chemistry, arXiv:1808.10402v3 [quant-ph] 27 Jan 2020.

Garnet Kin-Lic Chan, Quantum chemistry, classical heuristics, and quantum advantage, arXiv:2407.11235v1 [quant-ph] 15 Jul 2024.

Michael A. Jones, Harish J. Vallury, Charles D. Hill y Lloyd C. L. Hollenberg, Chemistry beyond the Hartree–Fock energy via quantum computed moments, www.nature.com/scientificreports.