| Quantum heat engine in the relativistic limit: The case of a Dirac particle E Muñoz, FJ Pena Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 86 (6 …, 2012 | 88 | 2012 |
| Boosting engine performance with Bose–Einstein condensation NM Myers, FJ Peña, O Negrete, P Vargas, G De Chiara, S Deffner New Journal of Physics 24 (2), 025001, 2022 | 54 | 2022 |
| Magnetostrain-driven quantum engine on a graphene flake FJ Pena, E Munoz Physical Review E 91 (5), 052152, 2015 | 46 | 2015 |
| Magnetically driven quantum heat engine E Munoz, FJ Pena Physical Review E 89 (5), 052107, 2014 | 38 | 2014 |
| Optimization of a relativistic quantum mechanical engine FJ Peña, M Ferré, PORG Rojas, P Vargas arXiv preprint arXiv:1603.04084, 2016 | 37 | 2016 |
| Otto engine: Classical and quantum approach FJ Peña, O Negrete, N Cortés, P Vargas Entropy 22 (7), 755, 2020 | 36 | 2020 |
| Quasistatic and quantum-adiabatic Otto engine for a two-dimensional material: The case of a graphene quantum dot FJ Peña, D Zambrano, O Negrete, G De Chiara, PA Orellana, P Vargas Physical Review E 101 (1), 012116, 2020 | 36 | 2020 |
| Spin-Seebeck effect and spin polarization in a multiple quantum dot molecule JP Ramos-Andrade, FJ Peña, A González, O Ávalos-Ovando, ... Physical Review B 96 (16), 165413, 2017 | 29 | 2017 |
| Magnetic Otto engine for an electron in a quantum dot: Classical and quantum approach FJ Peña, O Negrete, G Alvarado Barrios, D Zambrano, A González, ... Entropy 21 (5), 512, 2019 | 28 | 2019 |
| Magnetocaloric effect in an antidot: The effect of the Aharonov-Bohm flux and antidot radius OA Negrete, FJ Peña, P Vargas Entropy 20 (11), 888, 2018 | 23 | 2018 |
| Magnetically-driven quantum heat engines: The quasi-static limit of their efficiency E Muñoz, FJ Peña, A González Entropy 18 (5), 173, 2016 | 19 | 2016 |
| Magnetocaloric effect in non-interactive electron systems:“The Landau Problem” and Its extension to quantum dots OA Negrete, FJ Peña, JM Florez, P Vargas Entropy 20 (8), 557, 2018 | 18 | 2018 |
| Quantum mechanical engine for the quantum rabi model G Alvarado Barrios, FJ Peña, F Albarrán-Arriagada, P Vargas, ... Entropy 20 (10), 767, 2018 | 17 | 2018 |
| Magnetic engine for the single-particle Landau problem FJ Peña, A González, AS Nunez, PA Orellana, RG Rojas, P Vargas Entropy 19 (12), 639, 2017 | 17 | 2017 |
| Entropy and Mutability for the q-State Clock Model in Small Systems OA Negrete, P Vargas, FJ Peña, G Saravia, EE Vogel Entropy 20 (12), 933, 2018 | 14 | 2018 |
| Teaching labs for blind students: equipment to measure the thermal expansion coefficient of a metal O Negrete, A Lisboa, FJ Peña, CO Dib, P Vargas European Journal of Physics 41 (3), 035704, 2020 | 10 | 2020 |
| Magnetic stirling cycle for qubits with anisotropy near the quantum critical point C Araya, FJ Peña, A Norambuena, B Castorene, P Vargas Technologies 11 (6), 169, 2023 | 9 | 2023 |
| Effects of magnetic anisotropy on three-qubit antiferromagnetic thermal machines B Castorene, FJ Peña, A Norambuena, SE Ulloa, C Araya, P Vargas Physical Review E 110 (4), 044135, 2024 | 8 | 2024 |
| Proximity-induced spin-polarized magnetocaloric effect in transition metal dichalcogenides N Cortés, FJ Peña, O Negrete, P Vargas Physical Review B 105 (1), 014443, 2022 | 7 | 2022 |
| Teaching labs for blind students: Equipment to measure standing waves on a string A Lisboa, FJ Peña, O Negrete, CO Dib European Journal of Physics 42 (6), 065701, 2021 | 7 | 2021 |
Patricio VargasProfessor of Theoretical Physics, Universidad Tecnica Federico Santa MariaVerified email at usm.cl
