Coupling of molecular emitters and plasmonic cavities beyond the point-dipole approximation T Neuman, R Esteban, D Casanova, FJ García-Vidal, J Aizpurua Nano letters 18 (4), 2358-2364, 2018 | 178 | 2018 |
Mapping the near fields of plasmonic nanoantennas by scattering‐type scanning near‐field optical microscopy T Neuman, P Alonso‐González, A Garcia‐Etxarri, M Schnell, ... Laser & Photonics Reviews 9 (6), 637-649, 2015 | 108 | 2015 |
Single-molecule tautomerization tracking through space-and time-resolved fluorescence spectroscopy B Doppagne, T Neuman, R Soria-Martinez, LEP López, H Bulou, ... Nature nanotechnology 15 (3), 207-211, 2020 | 101 | 2020 |
Importance of plasmonic scattering for an optimal enhancement of vibrational absorption in SEIRA with linear metallic antennas T Neuman, C Huck, J Vogt, F Neubrech, R Hillenbrand, J Aizpurua, ... The Journal of Physical Chemistry C 119 (47), 26652-26662, 2015 | 98 | 2015 |
Real-space mapping of the chiral near-field distributions in spiral antennas and planar metasurfaces M Schnell, P Sarriugarte, T Neuman, AB Khanikaev, G Shvets, J Aizpurua, ... Nano letters 16 (1), 663-670, 2016 | 85 | 2016 |
Nanomagnonic cavities for strong spin-magnon coupling and magnon-mediated spin-spin interactions T Neuman, DS Wang, P Narang Physical Review Letters 125 (24), 247702, 2020 | 75 | 2020 |
Origin of the asymmetric light emission from molecular exciton–polaritons T Neuman, J Aizpurua Optica 5 (10), 1247-1255, 2018 | 70 | 2018 |
Giant effective magnetic fields from optically driven chiral phonons in paramagnets DM Juraschek, T Neuman, P Narang Physical Review Research 4 (1), 013129, 2022 | 66* | 2022 |
Complex plasmon-exciton dynamics revealed through quantum dot light emission in a nanocavity SN Gupta, O Bitton, T Neuman, R Esteban, L Chuntonov, J Aizpurua, ... Nature Communications 12 (1), 1310, 2021 | 65 | 2021 |
Control and near-field detection of surface plasmon interference patterns P Dvořák, T Neuman, L Brinek, T Šamořil, R Kalousek, P Dub, ... Nano letters 13 (6), 2558-2563, 2013 | 59 | 2013 |
A phononic interface between a superconducting quantum processor and quantum networked spin memories T Neuman, M Eichenfield, ME Trusheim, L Hackett, P Narang, D Englund npj Quantum Information 7 (1), 121, 2021 | 56* | 2021 |
Light–matter interaction of a molecule in a dissipative cavity from first principles DS Wang, T Neuman, J Flick, P Narang The Journal of Chemical Physics 154 (10), 2021 | 54* | 2021 |
Strong coupling between phonon-polaritons and plasmonic nanorods C Huck, J Vogt, T Neuman, T Nagao, R Hillenbrand, J Aizpurua, A Pucci, ... Optics express 24 (22), 25528-25539, 2016 | 53 | 2016 |
Cavity-modified unimolecular dissociation reactions via intramolecular vibrational energy redistribution DS Wang, T Neuman, SF Yelin, J Flick The Journal of Physical Chemistry Letters 13 (15), 3317-3324, 2022 | 50 | 2022 |
Mapping Lamb, Stark, and Purcell effects at a chromophore-picocavity junction with hyper-resolved fluorescence microscopy A Rosławska, T Neuman, B Doppagne, AG Borisov, M Romeo, ... Physical Review X 12 (1), 011012, 2022 | 46 | 2022 |
Surface-enhanced molecular electron energy loss spectroscopy A Konečná, T Neuman, J Aizpurua, R Hillenbrand ACS nano 12 (5), 4775-4786, 2018 | 45 | 2018 |
Quantum description of surface-enhanced resonant Raman scattering within a hybrid-optomechanical model T Neuman, R Esteban, G Giedke, MK Schmidt, J Aizpurua Physical Review A 100 (4), 043422, 2019 | 38 | 2019 |
Cavity control of nonlinear phononics DM Juraschek, T Neuman, J Flick, P Narang Physical Review Research 3 (3), L032046, 2021 | 36 | 2021 |
Giant optomechanical spring effect in plasmonic nano-and picocavities probed by surface-enhanced Raman scattering LA Jakob, WM Deacon, Y Zhang, B de Nijs, E Pavlenko, S Hu, ... Nature Communications 14 (1), 3291, 2023 | 26* | 2023 |
Spin emitters beyond the point dipole approximation in nanomagnonic cavities DS Wang, T Neuman, P Narang The Journal of Physical Chemistry C 125 (11), 6222-6228, 2021 | 25 | 2021 |