HIAS Publications

16. G. Engelhardt, K.E. Dorfman, and Z. Zhang, "Photon-resolved Floquet theory aproach to spectroscopic quantum sensing", Phys. Rev. A 112, 063725 (2025). Link

15. Z. Jiang, K. Sun, Y. Zhao, and K.E. Dorfman, " Phonon controlled transmission properties of metasurfaces under strong light-matter coupling", Nanoph. 14, 2345 (2025). Link

14. Z. Gao, W. Zhao, X. Gao, A. Chen, W. Ye, Q. Song, P. Genevet, and K.E. Dorfman, 

“Broadband Full Polarization Control Using a Staggered Arrangement of Meta

molecules”, Nanolett. 25, doi:10.1021/acs.nanolett.4c05273, (2025). Link

13. S. Asban, F. Schlawin, Z. Gao, and K.E. Dorfman, “Nonlinear quantum optical 

inference: Advances and on-chip perspectives”, book chapter “On-Chip Photonics: 

Principles, Technology, and Applications” ed. by A. Karabchevsky and A. Choudhary, 

Elsevier, ISBN: 978-0-323-91765-0, (2024). Link

12. Y. Qiao, N. Wang, S. Jiang, Y. Yang, J. Chen, and K.E. Dorfman, “Semiperturbative 

strong-field approximation model for high-harmonic generation from crystals”, Phys. 

Rev. B 110, 075201 (2024). Link

11. X. Xin, Y. Chen, Y. Cai, X. Wang,X. Dai, C. Wu, X. Yang, K.E. Dorfman, B. Wu, K. 

Huang, and E Wu “Time-stretched quantum spectroscopy of midinfrared plasmonic 

nanostructures”, Phys. Rev. Appl. 21, 064038 (2024). Link

10. J. Chen and K.E. Dorfman, “Entangled two-photon quantum heat engine: Dissipa

tive nonequilibrium dynamics and correlated statistics”, Phys. Rev. Res. 6, 023237 

(2024). Link

9. S. Huang, Z. Li, J. Li, N. Zhang, X. Lu, K.E. Dorfman, J. Liu, and J. Yao, " Spatiotemporal vortex strings", Sci. Adv. 10, eadn6206 (2024). Link

8. Y. Cai, Y. Chen, K.E. Dorfman, X. Xin, X. Wang, K. Huang, and E Wu, " Mid-infrared single-photon upconversion spectroscopy enabled by nonlocal wavelength-to-time mapping", Sci. Adv.  10, eadl3503 (2024). Link

7. S. Jiang, M. Gudem, M. Kowalewski, and K.E. Dorfman, "Multidimensional high-harmonic echo spectroscopy: Resolving coherent electron dynamics in the EUV regime", PNAS 121, e2304821121 (2024). Link

6. G. Yuan, R. Lu, S. Jiang, and K.E. Dorfman, “Conical Intersection versus Avoided

Crossing: Geometric Phase Effect in Molecular High-Order Harmonics”, Ultraf. Sci.

3, 0040 (2023). Link

5. Y. Peng, T. Wu, G. Yuan, L. Chi, S. Jiang, K.E. Dorfman, C. Yu, and R. Lu

“Solid state–like high harmonic generation from cluster molecules with rotational

periodicities”, Sci. Adv. 9, eadd6810 (2023). Link

4. Zhanjie Gao, Zengping Su, Qinghua Song*, Patrice Genevet* and Konstantin E. Dorfman, "Metasurface for complete measurement of polarization Bell state", Nanoph.  DOIL 10.1515 nanoph-2022-0593  (2022). Link

3.  C. H. Raymond Ooi and Konstantin Dorfman, "Quantum parametric double Raman oscillators with co- and  counter propagating fields: Relative intensity squeezing and spatial  photon correlations", Phys. Rev.  A 106, 053705 (2022). Link

2.  Jaegon Um, Konstantin E. Dorfman, and Hyunggyu Park, "Coherence-enhanced quantum-dot heat engine", Phys. Rev. Res. 4, L032034 (2022). Link

1.  Md Qutubuddin and Konstantin E. Dorfman, "Incoherent control of two-photon induced optical measurements in open quantum systems: Quantum heat engine perspective ", Phys. Rev. Res. 4, 023259 (2022). Link