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  1. Exact classical limit of the quantum bouncer 
    Canas, JA; Bernal, J; Martin-Ruiz, A. The European Physical Journal Plus (2022), 137(12), art. 1310.
  2. Topological signatures in the entanglement of a topological insulator-quantum dot hybrid 
    Castro-Enriquez, LA; Martin-Ruiz, A; Cambiaso, M. Scientific Reports (2022), 12(1), art. 20856.
  3. Bioactive foods decrease liver and brain alterations induced by a high-fat-sucrose diet through the restoration of gut microbiota and antioxidant enzymes 
    Syeda, T; Sánchez-Tapia, M; Orta, I; Granados-Portillo, O; Pérez-Jimenez, L; Rodriguez-Callejas, J; Rodriguez-Callejas, JD; Toribio, S; Silva-Lucero, MC; Silva-Lucero, MD; Rivera, AL; Tovar, AR; Torres, N; Perez-Cruz, C. Nutrients (2022), 14(1), art. 22.
  4. E2 rotational invariants of 0+1 and 2+1 states for 106Cd: The emergence of collective rotation 
    Gray, TJ; Allmond, JM; Janssens, RVF; Korten, W; Stuchbery, AE; Wood, JL; Ayangeakaa, AD; Bottoni, S; Bucher, BM; Campbell, CM; Carpenter, MP; Crawford, HL; David, H; Doherty, DT; Fallon, P; Febbraro, MT; Galindo-Uribarri, A; Gross, CJ; Komorowska, M; Kondev, FG. Physics Letters B: Nuclear, Elementary Particle and High-Energy Physics (2022), 834, art. 137446.
  5. Bullseye focusing of cylindrical waves at a liquid–solid interface 
    Gutiérrez-Hernández, U; Reese, H; Ohl, CD; Quinto-Su, PA. Physics of Fluids (2022), 34, art. 112013.
  6. Differentiating acute from chronic insomnia with machine learning from actigraphy time series data 
    Rani, S; Shelyag, S; Karmakar, C; Zhu, Y; Fossion, R; Ellis, JG; Drummond, SPA; Angelova, M. Frontiers in Network Physiology (2022), 2(1036832), art. 15.
  7. On-demand parity-time symmetry in a lone oscillator through complex synthetic gauge fields 
    Quiroz-Juarez, MA; Agarwal,KS; Cochran, ZA; Aragon, JL; Joglekar, YN; Leon-Montiel, RJ. Physical Review Applied (2022), 18(5), art. 054034.
  8. Quantum interferometric two-photon excitation spectroscopy 
    Chen, Y; Leon-Montiel, RJ; Chen, L. New Journal of Physics (2022), 24(11), art. 113014.
  9. Signatures of topological phase transitions in higher Landau levels of HgTe/CdTe quantum wells from an information theory perspective 
    Calixto, M; Cordero, NA; Romera, E; Castanos, O. Physica A (2022), 605, art. 128057.
  10. Science requirements and detector concepts for the Electron-Ion Collider 
    Fernandez-Ramirez, C; Otra colaboración. Nuclear Physics A (2022), 1026, art. 122447.
  11. Testing the scalar sector of the standard-model extension with neutron gravity experiments 
    Escobar, CA; Martin-Ruiz, A; Escobar-Ruiz, AM; Linares, R. European Physical Journal Plus (2022), 137(10), art. 1186.
  12. Theoretical attempt to predict the cross sections in the case of new superheavy elements 
    Chopra, S; Goel, N; Sharma, MK; Hess, PO; Hemdeep, H. Physical Review C (2022), 106, pp. L031601 1–6.
  13. Editorial: Quantum light for imaging, sensing and spectroscopy 
    Leon-Montiel, RJ; Quiroz-Juarez, MA; Magaña-Loaiza, OS; Torres, JP. Frontiers in Physics (2022), 10, art. 1029478.
  14. Ultra-compact accurate wave functions for He-like and Li-like iso-electronic sequences and variational calculus: III. Spin-quartet state (1s2s3s) of the lithium sequence 
    Nader, DJ; Del Valle, JC; Lopez Vieyra, JC; Turbiner, AV. International Journal of Quantum Chemistry (2022), 122(17), art. e26952.
  15. Chronotropic response and heart rate variability before and after a 160 m walking test in young, middle-aged, frail, and non-frail older adults 
    Alvarez-Millán, L; Lerma, C; Castillo-Castillo, D; Quispe- Siccha, RM; Pérez-Pacheco, A; Rivera-Sánchez, J; Fossion, R. International Journal of Environmental Research and Public Health (2022), 19(14), art. 8413.
  16. Testing the equivalence principle with time-diffracted free-falling quantum particles 
    Canas, JA; Bernal, J; Martin-Ruiz, A. European Physical Journal Plus (2022), 137(7), art. 816.
  17. Entanglement Property of Tripartite GHZ State in Different Accelerating Observer Frames 
    Dong, Q; Leon-Montiel, RJ; Sun, GH; Dong, SH. Entropy (2022), 24(8), art. 1011.
  18. High-dimensional encryption in optical fibers using spatial modes of light and machine learning 
    Lollie, MLJ; Mostafavi, F; Bhusal, N; Hong, M; You, C; Leon-Montiel, RJ; Magaña-Loaiza, OS; Quiroz-Juarez, MA. Machine Learning: Science and Technology (2022), 3(3), art. 035006.
  19. Smart quantum statistical imaging beyond the Abbe-Rayleigh criterion 
    Bhusal, N; Hong, MY; Miller, A; Quiroz-Juarez, MA; Leon-Montiel, RJ; You, CL; Magaña-Loaiza, OS. n p j Quantum Information (2022), 8(1), art. 83.
  20. Transfer reactions between odd-odd and even-even nuclei by using IBFFM and zero-neutrino double-beta decay in closure approximation 
    Magana-Vsevolodovna, RI; Santopinto, E; Bijker, R; NUMEN Collaboration. Physical Review C (2022), 106, art. 044307.
  21. Novel approaches in hadron spectroscopy 
    Labaladejo, M; Bibrzycki, L; Dawid, SM; Fernandez-Ramirez, C; Gonzalez-Solis, S; Hiller Blin, AN; Jackura, AW; Mathieu, V; Mikhasenko, M; Mokeev, VI; Passemar, E; Pilloni, A; Rodas, A; Silva-Castro, JA; Smith, WA; Szczepaniak, AP; Winney, D. Progress in Particle and Nuclear Physics (2022), 127, art. 103981.
  22. Consequences of a minimal length in a pseudo-complex extension of general relativity 
    Hess, PO. International Journal of Modern Physics D (2022), 13(9), art. 2250068.
  23. Effective electromagnetic actions for Lorentz violating theories exhibiting the axial anomaly 
    Gomez, A; Martin-Ruiz, A; Urrutia, LF. Physics Letters B: Nuclear, Elementary Particle and High-Energy Physics (2022), 829, art. 137043.
  24. Experimental realization of a wavelength-sized optical-vortex knot 
    Herrera, I; Mojica-Casique, CA; Quinto-Su, PA. Physical Review Applied (2022), 17(6), art. 064026.
  25. Quantum metric tensor of the Dicke model: Analytical and numerical study 
    Gutierrez-Ruiz, D; Chavez-Carlos, J; Gonzalez, D; Hirsch, JG; Vergara, JD. Physical Review B (2022), 105(21), art. 214106.
  26. Effective dimensions of infinite-dimensional Hilbert spaces: A phase-space approach 
    Pilatowsky-Cameo, S; Villasenor, D; Bastarrachea-Magnani, MA; Lerma-Hernandez, S; Hirsch, JG. Physical Review E (2022), 105(6), art. 064209.
  27. Deep learning exotic hadrons 
    Ng, L; Bibrzycki, L; Nys, J; Fernandez-Ramirez, C; Pilloni, A; Mathieu, V; Rasmusson, AJ; Szczepaniak, AP. Physical Review D (2022), 105(9), art. L091501.
  28. High Incidence Rate of SARS-CoV-2 Infection in Health Care Workers at a Dedicated COVID-19 Hospital: Experiences of the Pandemic from a Large Mexican Hospital 
    Bueno-Hernández, N; Carrillo-Ruíz, JD; Méndez-García, LA; Rizo-Téllez, SA; Viurcos-Sanabria, R; Santoyo-Chávez, A; Márquez-Franco, R; Aguado-García, A; Baltazar-López, N; Tomita-Cruz, Y; Valeria Barrón, E; Sánchez, AL; Márquez, E; Fossion, R; Rivera, AL; Ruelas, L; Lecona, OA; Martínez-Mekler, G; Müller, M; Arroyo-Valerio, AG. Healthcare (2022), 10(896), art. 8.
  29. Experimental study of the validity of entangled two-photon absorption measurements in organic compounds 
    Corona-Aquino, S; Calderon-Losada, O; Li-Gomez, MY; Cruz-Ramirez, H; Alvarez-Venicio, V; Carreon-Castro, MP; Leon-Montiel, RJ; U'Ren, AB. Journal of Physical Chemistry A (2022), 126(14), pp. 2185–2195.
  30. Ecological and convergent validity of experimentally and dynamically assessed capacity for social contingency detection using the perceptual crossing experiment in adolescence 
    Hermans, KSFM; Kirtley, O; Kasanova, Z; Achterhof, R; Hagemann, N; Hiekkaranta, AP; Lecei, A; Zapata-Fonseca, L; Lafit, G; Fossion, R; Froese, T; Myin-Germeys, I. Assessment (2022), pp. 1–16.
  31. Masses and decay widths of Xi(c/b) and Xi'(c/b) baryons 
    Bijker, R; García-Tecocoatzi, H; Giachino, A; Ortiz-Pacheco, E; Santopinto, E. Physical Review D (2022), 105(7), art. 074029.
  32. Effect of the atomic dipole-dipole interaction on the phase diagrams of field-matter interactions: Variational procedure 
    Cordero, S; Castanos, O; Lopez-Pena, R; Nahmad-Achar, E. Physical Review A (2022), 105(3), art. 033712.
  33. Physiological network is disrupted in severe COVID-19 
    Barajas-Martinez, A; Mehta, R; Ibarra-Coronado, E; Fossion, R; MartinezGarces, VJ; Arellano, M; Gonzalez-Alvarez, IA; Bautista, YVM; Bello-Chavolla, OY; Pedraza, N; Encinas, B; Carrion, CIP; Avila, MIJ; Valladares-Garcia, JC; Vanegas-Cedillo, PE; Juarez, DH; Vargas-Vazquez, A; Antonio-Villa, NE; Almeda-Valdes, P; Resendis-Antonio, O. Frontiers in Physiology (2022), 13, art. 848172.
  34. Algebraic vibrational description of the symmetric isotopologues of CO2: (CO2)-C-13-O-16, (CO2)-C-12-O-18 and (CO2)-C-12-O-17 
    Bermúdez-Montaña, M; Rodríguez-Arcos, M; Carvajal, M; Ostertag-Henning, C; Lemus, R. Chemical Physics (2022), 557, art. 111481.
  35. Neutron transfer reactions on the ground state and isomeric state of a Sn-130 beam 
    Jones, KL; Bey, A; Burcher, S; Allmond, JM; Galindo-Uribarri, A; Radford, DC; Ahn, S; Ayres, A; Bardayan, DW; Cizewski, JA; Ruiz, RFG; Howard, ME; Kozub, RL; Liang, JF; Manning, B; Matos, M; Nesaraja, CD; O'Malley, PD; Padilla-Rodal, E; Pain, SD. Physical Review C (2022), 105(2), art. 024602.
  36. Identification of quantum scars via phase-space localization measures 
    Pilatowsky-Cameo, S; Villasenor, D; Bastarrachea-Magnani, MA; Lerma-Hernandez, S; Santos, LF; Hirsch, JG. Quantum (2022), 6, pp. 1–13.
  37. Effective Michelson interference observed in fiber-optical analogue of Hawking radiation 
    Felipe-Elizarraras, R; Cruz-Ramirez, H; Garay-Palmett, K; U'Ren, AB; Bermudez, D. Optics Express (2022), 30(5), pp. 8063–8074.
  38. Scalar and tensor resonances in J/psi radiative decays 
    Rodas, A; Pilloni, A; Albaladejo, M; Fernandez-Ramirez, C; Mathieu, V; Szczepaniak, AP. European Physical Journal C (2022), 82(1), art. 80.
  39. Possibility to form Z=120 via the Ni-64 + U-238 reaction using the dynamical cluster-decay model 
    Chopra, S; Sharma, MK; Hess, PO; Bedi, J. Physical Review C (2022), 105(1), art. 014610.
  40. Identification of model particle mixtures using machine-learning-assisted laser diffraction 
    Villegas, A; Quiroz-Juarez, MA; U'Ren, AB; Torres, JP; Leon-Montiel, RJ. Photonics (2022), 9(2), art. 74.
  41. Ultra-compact accurate wave functions for He-like and Li-like iso-electronic sequences and variational calculus: II. Spin-singlet (excited) and spin-triplet (lowest) states of helium sequence 
    Turbiner, AV; Lopez Vieyra, JC; de Valle, JC; Nader, DJ. International Journal of Quantum Chemistry (2022), 123, art. e26879.
  42. Algebraic DVR approaches applied to piecewise potentials:symmetry and degeneracy 
    Suárez, E; Santiago-Acosta, RD; Lemus, R. Symmetry (2022), 14(445), pp. 1–51.
  43. Theoretical results for hadronic masses and their widths in the framework of the SO(4) model 
    Yepez-Martinez, T; Civitarese, O; Hess, PO; Rico-Trejo, OA; Ramirez-Soto, UI. International Journal of Modern Physics E (2022), 31(10 & 11), art. 16.
  44. Geometry, quantum correlations, and phase transitions in the Λ atomic configuration 
    Castanos, O; Cordero, S; Lopez-Pena, R; Nahmad-Achar, E. Journal of Physics A-Mathematical and Theoretical (2022), 55(48), art. 485302.
  45. A non-parametric model: free analysis of actigraphic recordings of acute insomnia patients 
    Marín-García, A; Fossion, R; Müller, M; Ríos-Herrera, W; Rivera, AL. Royal Society Open Science (2022), 9(2), art. 210463.
  46. Configuration localised states from orthogonal polynomials for effective potentials in 3D systems vs algebraic DVR approaches 
    Rodríguez-Arcos, M; Bermúdez-Montaña, M; Lemus, R; Arias, JM; Gomez-Camacho, J. Molecular Physics (2022), 120(8), art. e2044082.