Publications

1. J. Thingna, R. Prasad and S. Auluck, “Photo-absorption spectra of small hydrogenated silicon clusters using the time-dependent density functional theory,” J. Phys. Chem. Solids 72, 1096 (2011). PDF/arXiv/doi

2. J. Thingna and J.-S. Wang, “Geometric effects on spin injection: 3D spin drift diffusion model,” J. Appl. Phys. 109, 124303 (2011). PDF/arXiv/doi

3. J. Thingna, J. L. García-Palacios, and J.-S. Wang, “Steady-state thermal transport in anharmonic systems: Application to molecular junctions,'' Phys. Rev. B 85, 195452 (2012). PDF/arXiv/doi

4. J. Thingna, J.-S. Wang, and P. Hänggi, “Generalized Gibbs state with modified Redfield solution: Exact agreement up to second order,” J. Chem. Phys. 136, 194110 (2012). PDF/arXiv/doi

5. L. Zhang, J. Thingna, D. He, J.-S. Wang, and B. Li, “Nonlinearity enhanced interfacial thermal conductance and rectification,” EPL 103, 64002 (2013). PDF/arXiv/doi

6. J. Thingna, J.-S. Wang, and P. Hänggi, “Reduced density matrix for nonequilibrium steady states: A modified Redfield solution approach,” Phys. Rev. E 88, 052127 (2013). PDF/arXiv/doi

7. J. Thingna and J.-S. Wang, “Spin rectifcation in thermally driven XXZ spin chain via the spin-Seebeck effect,” EPL 104, 37006 (2013). PDF/arXiv/doi

8. J. Thingna, P. Hänggi, R. Fazio and M. Campisi, “Geometric quantum pumping in the presence of dissipation,” Phys. Rev. B 90, 094517 (2014). PDF/arXiv/doi

9. J. Thingna, H. Zhou, and J.-S. Wang, “Improved Dyson series expansion for steady-state quantum transport beyond the weak coupling limit - divergences and resolution,” J. Chem. Phys. 141, 194101 (2014). PDF/arXiv/doi

10. J.-S. Wang, B. K. Agarwalla, H. Li, and J. Thingna, “Nonequilibrium Green's function method for quantum thermal transport,” Frontiers of Physics  9, 673 (2014) [invited review]. PDF/arXiv/doi

11. H. Zhou, J. Thingna, J.-S. Wang, and B. Li, “Thermoelectric transport through a quantum nanoelectromechanical system and its backaction,” Phys. Rev. B 91, 045410 (2015). PDF/arXiv/doi

12. H. Zhou, J. Thingna, P. Hänggi, J.-S. Wang, and B. Li, “Boosting thermoelectric efficiency using time-dependent control,” Scientific Reports 5, 14870 (2015). PDF/arXiv/doi

13. T. Shirai, J. Thingna, T. Mori, S. Denisov, P. Hänggi, and S. Miyashita, “Effective Floquet-Gibbs states for dissipative quantum systems,” New J. Phys. 18, 053008 (2016). PDF/arXiv/doi

14. J. Thingna, D. Manzano, and J. Cao, “Dynamical signatures of molecular symmetries in nonequilibrium quantum transport,” Scientific Reports 6, 28027 (2016). PDF/arXiv/doi

15. D. He, J. Thingna, J.-S. Wang, and B. Li, “Quantum thermal conduction through anharmonic nano-junctions: A self-consistent phonon approach,” Phys. Rev. B 94, 155411 (2016). PDF/arXiv/doi

16. X. Xu, J. Thingna, and J.-S. Wang, “Finite coupling effects in double quantum dots near equilibrium,” Phys. Rev. B 95, 035428 (2017). PDF/arXiv/doi

17. Y. B. Lim, J. Thingna, J. Cao, and C. T. Lim, “Single molecule and multiple bond characterization of catch bond associated cytoadhesion in malaria,” Scientific Reports 7, 4208 (2017) PDF/doi.

18. J. Thingna, F. Barra, and M. Esposito, “Kinetics and thermodynamics of a driven open quantum system,” Phys. Rev. E 96, 052132 (2017). PDF/arXiv/doi

19. G. Tang, J. Thingna, and J. Wang, “Thermodynamics of energy, charge, and spin currents in a thermoelectric quantum-dot spin valve,” Phys. Rev. B 97, 155430 (2018). PDF/arXiv/doi

20. D. He, J. Thingna, and J. Cao, “Interfacial thermal transport with strong system-bath coupling: A phonon delocalization effect,” Phys. Rev. B 97, 195437 (2018). PDF/arXiv/doi

21. T. Herpich, J. Thingna, and M. Esposito, “Collective power: Minimal model for thermodynamics of nonequilibrium phase transitions,” Phys. Rev. X 8, 031056 (2018). PDF/arXiv/doi (press release)

22. X. Xu, J. Thingna, C. Guo, and D. Poletti, “Many-body open quantum systems beyond Lindblad master equations,” Phys. Rev. A 99, 012106 (2019). PDF/arXiv/doi

23. J. Thingna, M. Esposito, and F. Barra, “Landau-Zener Lindblad equation and work extraction from coherences,” Phys. Rev. E 99, 042142 (2019). PDF/arXiv/doi

24. Y. B. Lim, J. Thingna, F. Kong, M. Dao, J. Cao, and C. T. Lim, “Temperature-induced catch-slip to slip bond transit in Plasmodium Falciparum-infected erythrocytes,” Biophysical Journal 118, 105 (2020). PDF/doi

25. S. Gündoğdu, J. Thingna, and D. Leykam, “Edge mode bifurcations of two-dimensional topological lasers,” Optics Letters 45, 3673 (2020). PDF/arXiv/doi

26. J. Thingna and P. Talkner, “Quantum measurement of sums” Phys. Rev. A 102, 012213 (2020). PDF/arXiv/doi

27. J. Thingna, D. Manzano, and J. Cao, "Magnetic field induced symmetry breaking in nonequilibrium quantum networks," New J. Phys. 22, 083026 (2020). PDF/arXiv/doi

28. S. Denisov, O. Vershinina, J. Thingna, P. Hänggi, and M. Ivanchenko, "Quasi-stationary states of game-driven systems: A dynamical approach," Chaos 30, 123145 (2020). PDF/arXiv/doi

29. Á. Tejero, J. Thingna, and D. Manzano, "Comment on: "Loss-free excitonic quantum battery"," J. Phys. Chem. C 125, 7518 (2021). PDF/arXiv/doi (press release)

30. J. Thingna and D. Manzano, "Degenerated Liouvillians and steady-state reduced density matrices, " Chaos 31, 073114 (2021). PDF/arXiv/doi

31. J.-W. Ryu, A. Lazarescu, R. Marathe, and J. Thingna, "Stochastic thermodynamics of inertial-like Stuart-Landau dimer," New J. Phys. 23, 105005 (2021). PDF/arXiv/doi

32. J. Son, P. Talkner, and J. Thingna, "Monitoring quantum Otto engines," Phys. Rev. X Quantum 2, 040328 (2021). PDF/arXiv/doi (press release)

33. J.-Y. Han, D. Leykam, D. G. Angelakis, and J. Thingna, "Quantum transient heat transport in the hyper-parametric oscillator," Phys. Rev. A 104, 052220 (2021). PDF/arXiv/doi

34. J. N. Bandyopadhyay and J. Thingna, "Floquet engineering of Lie algebraic quantum systems," Phys. Rev. B (Letters) 105, L020301 (2022). PDF/arXiv/doi

35. J. Son, P. Talkner, and J. Thingna, "Charging quantum batteries via Otto machines: Influence of monitoring," Phys. Rev. A 106, 052202 (2022). PDF/arXiv/doi

36. T. Becker, A. Schnell, and J. Thingna, "Canonically consistent quantum master equation," Phys. Rev. Lett. 129, 200403 (2022). PDF/arXiv/doi (press release)

37. T. Murtadho, J. Thingna, and S. Vinjanampathy, "Deriving lower bounds on the efficiency of near-degenerate thermal machines via synchronization" Phys. Rev. A 108, 012205 (2023). PDF/arXiv/doi (press release)

38. T. Murtadho, S. Vinjanampathy, and J. Thingna, "Cooperation and competition in synchronous open quantum systems," Phys. Rev. Lett. 131, 030401 (2023). PDF/arXiv/doi (press release, Physics World)

39. D. Šafránek and J. Thingna, "Quantifying information extraction using generalized quantum measurements," Phys. Rev. A 108, 032413 (2023). PDF/arXiv/doi

40. M. Aifer, J. Thingna, and S. Deffner, "Energetic cost for speedy synchronization in non-Hermitian quantum dynamics," Phys. Rev. Lett. 133, 020401 (2024). PDF/arXiv/doi (Physics World)

Unpublished papers

1. O. Tkachenko, J. Thingna, S. Denisov, V. Zaburdaev, and P. Hänggi, “Seasonal states in the evolutionary dynamics of finite populations,” (unpublished). arXiv