23. “Distributed Quantum Sensing with Multimode N00N States”
D.-H. Kim, S. Hong, Y.-S. Kim, K. Oh, S.-Y. Lee, C. Lee, and H.-T. Lim
Phys. Rev. Lett. 135, 050802 (2025)
22. “Persistent quantum advantage with definite photon-number states in lossy multiple-phase estimation”
M. Namkung, D.-H. Kim, S. Hong, C. Lee*, and H.-T. Lim* (* Co-corresponding authors)
Phys. Rev. A 112, 013714 (2025)
21. “Robust and bright polarization-entangled photon sources exploiting non-critical phase matching without periodic poling”
I. Kim, Y. Kim, Y.-S. Kim, K. J. Lee*, and H.-T. Lim* (* Co-corresponding authors)
20. “Implementation of controlled unitary gates and its application in a remote-controlled quantum operation”
B. Kim, S. Hong, Y.-S. Kim, K. Oh, and H.-T. Lim
19. “Qudit-based variational quantum eigensolver using photonic orbital angular momentum states”
B. Kim, K. Hu, M.-H. Sohn, Y. Kim, Y.-S. Kim, S.-W. Lee, and H.-T. Lim
18. “Optimal multiple-phase estimation with multi-mode NOON states against photon loss”
M. Namkung, D.-H. Kim, S. Hong, Y.-S. Kim, C. Lee*, and H.-T. Lim* (* Co-corresponding authors)
New J. Phys. 26, 073028 (2024)
17. “Distributed quantum sensing of multiple phases with fewer photons”
D.-H. Kim, S. Hong, Y.-S. Kim, Y. Kim, S.-W. Lee, R. C. Pooser, K. Oh, S.-Y. Lee, C. Lee, and H.-T. Lim
Phys.org "Enabling distributed quantum sensors for simultaneous measurements in distant places"
16. “Optimal strategy for multiple-phase estimation under practical measurement with multimode NOON states”
J. ur Rehman, S. Hong, Y.-S. Kim, Y.-W. Cho, S.-W. Lee, H. Jung, S. Moon, H. Shin, S.-W. Han, and H.-T. Lim
Phys. Rev. A 106, 032612 (2022)
15. “Practical Sensitivity Bound for Multiple Phase Estimation with Multi-Mode N00N States”
S. Hong, J. ur Rehman, Y.-S. Kim, Y.-W. Cho, S.-W. Lee, S.-Y. Lee, and H.-T. Lim
Laser & Photonics Rev. 16, 2100682 (2022)
14. “Demonstration of Complete Information Trade-Off in Quantum Measurement”
S. Hong, Y.-S. Kim, Y.-W. Cho, J. Kim, S.-W. Lee*, and H.-T. Lim* (* Co-corresponding authors)
Phys. Rev. Lett. 128, 050401 (2022) selected as an Editor's Suggestion paper & the cover of this week's issue of PRL
Physics 15, s13 (2022) "Quantum Measurement Strikes a Balance" by Rachel Berkowitz
Phys.org "Study redefines what information is important in quantum measurements" by Ingrid Fadelli
Physics World "Quantum measurement splits information three ways" by Maria Violaris
13. “Quantum enhanced multiple-phase estimation with multi-mode N00N states”
S. Hong, J. ur Rehman, Y.-S. Kim, Y.-W. Cho, S.-W. Lee, H. Jung, S. Moon, S.-W. Han, and H.-T. Lim
Nat. Commun. 12, 5211 (2021) News
12. “Implementation of a 3 x 3 directionally-unbiased linear optical multiport”
I. Kim, D. Lee, S. Hong, Y.-W. Cho, K. J. Lee, Y.-S. Kim*, and H.-T. Lim* (* Co-corresponding authors)
11. “Experimental implementation of arbitrary entangled operations”
S. Hong, C. H. Park, Y.-H. Choi, Y.-S. Kim, Y.-W. Cho, K. Oh, and H.-T. Lim
New J. Phys. 22, 093070 (2020)
10. “Enhanced interactions between dipolar polaritons”
E. Togan*, H.-T. Lim*, S. Faelt, W. Wegscheider, and A. Imamoglu (* Co-first authors)
Phys. Rev. Lett. 121, 227402 (2018) selected as an Editor's Suggestion paper
9. “Electrically tunable artificial gauge potential for polaritons”
H.-T. Lim*, E. Togan*, M. Kroner, J. Miguel-Sanchez, and A. Imamoglu (* Co-first authors)
Nat. Commun. 8, 14540 (2017) News
8. “Effects of polarization mode dispersion on polarization-entangled photons generated via broadband pumped spontaneous parametric down-conversion”
H.-T. Lim, K.-H. Hong, and Y.-H. Kim
7. “Experimental demonstration of high fidelity entanglement distribution over decoherence channels via qubit transduction”
H.-T. Lim, K.-H. Hong, and Y.-H. Kim
6. "Observation of decoherence-induced exchange symmetry breaking in an entangled state”
H.-T. Lim, J.-C. Lee, K.-H. Hong, and Y.-H. Kim
Phys. Rev. A 90, 052328 (2014)
5. "Avoiding entanglement sudden death using single-qubit quantum measurement reversal”
H.-T. Lim, J.-C. Lee, K.-H. Hong, and Y.-H. Kim
4. "Fundamental Bounds in Measurements for Estimating Quantum States”
H.-T. Lim, Y.-S. Ra, K.-H. Hong, S.-W. Lee, and Y.-H. Kim
Phys. Rev. Lett. 113, 020504 (2014)
3. "Experimental realization of an approximate transpose operation for qutrit systems using a structural physical approximation”
H.-T. Lim, Y.-S. Kim, Y.-S. Ra , J. Bae, and Y.-H. Kim
Phys. Rev. A 86, 042334 (2012)
2. “Experimental realization of an approximate partial transpose for photonic two-qubit systems”
H.-T. Lim, Y.-S. Kim, Y.-S. Ra , J. Bae, and Y.-H. Kim
Phys. Rev. Lett. 107, 160401 (2011)
1. “Experimental implementation of the universal transpose operation using the structural physical approximation”
H.-T. Lim, Y.-S. Ra, Y.-S. Kim, J. Bae and Y.-H. Kim