Direct laser writing of three-dimensional photonic-crystal templates for telecommunications M Deubel, G Von Freymann, M Wegener, S Pereira, K Busch, ... Nature materials 3 (7), 444-447, 2004 | 1372 | 2004 |
Photonic band gap formation in certain self-organizing systems K Busch, S John Physical Review E 58 (3), 3896, 1998 | 1285 | 1998 |
Liquid-crystal photonic-band-gap materials: the tunable electromagnetic vacuum K Busch, S John Physical Review Letters 83 (5), 967, 1999 | 1047 | 1999 |
Periodic nanostructures for photonics K Busch, G Von Freymann, S Linden, SF Mingaleev, L Tkeshelashvili, ... Physics reports 444 (3-6), 101-202, 2007 | 566 | 2007 |
Tunable two-dimensional photonic crystals using liquid crystal infiltration SW Leonard, JP Mondia, HM Van Driel, O Toader, S John, K Busch, ... Physical Review B 61 (4), R2389, 2000 | 555 | 2000 |
Photonic crystals: advances in design, fabrication, and characterization K Busch, S Lölkes, RB Wehrspohn, H Föll John Wiley & Sons, 2006 | 472 | 2006 |
Silicon‐based photonic crystals A Birner, RB Wehrspohn, UM Gösele, K Busch Advanced Materials 13 (6), 377-388, 2001 | 463 | 2001 |
Three‐dimensional nanostructures for photonics G Von Freymann, A Ledermann, M Thiel, I Staude, S Essig, K Busch, ... Advanced Functional Materials 20 (7), 1038-1052, 2010 | 441 | 2010 |
Three-dimensional face-centered-cubic photonic crystal templates by laser holography: fabrication, optical characterization, and band-structure calculations YV Miklyaev, DC Meisel, A Blanco, G von Freymann, K Busch, W Koch, ... Applied Physics Letters 82 (8), 1284-1286, 2003 | 356 | 2003 |
Macroporous silicon with a complete two‐dimensional photonic band gap centered at 5 μm U Grüning, V Lehmann, S Ottow, K Busch Applied Physics Letters 68 (6), 747-749, 1996 | 297 | 1996 |
Theory of fluorescence in photonic crystals N Vats, S John, K Busch Physical Review A 65 (4), 043808, 2002 | 266 | 2002 |
Few-photon transport in low-dimensional systems: interaction-induced radiation trapping P Longo, P Schmitteckert, K Busch Physical review letters 104 (2), 023602, 2010 | 258 | 2010 |
Discontinuous Galerkin methods in nanophotonics K Busch, M König, J Niegemann Laser & Photonics Reviews 5 (6), 773-809, 2011 | 225 | 2011 |
Macroporous silicon with a complete two-dimensional photonic band gap centered at 5 μm U Gruning, V Lehmann, S Ottow, K Busch Applied physics letters 68 (6), 747, 1996 | 217 | 1996 |
Three-dimensional photonic crystals based on macroporous silicon with modulated pore diameter J Schilling, F Müller, S Matthias, RB Wehrspohn, U Gösele, K Busch Applied Physics Letters 78 (9), 1180-1182, 2001 | 210 | 2001 |
Quantization of quasinormal modes for open cavities and plasmonic cavity quantum electrodynamics S Franke, S Hughes, MK Dezfouli, PT Kristensen, K Busch, A Knorr, ... Physical review letters 122 (21), 213901, 2019 | 201 | 2019 |
Photonic bandgap formation and tunability in certain self-organizing systems S John, K Busch Journal of Lightwave Technology 17 (11), 1931, 1999 | 185 | 1999 |
The Wannier function approach to photonic crystal circuits K Busch, SF Mingaleev, A Garcia-Martin, M Schillinger, D Hermann Journal of Physics: Condensed Matter 15 (30), R1233, 2003 | 150 | 2003 |
Modeling electromagnetic resonators using quasinormal modes PT Kristensen, K Herrmann, F Intravaia, K Busch Advances in Optics and Photonics 12 (3), 612-708, 2020 | 148 | 2020 |
Absolute extinction cross-section of individual magnetic split-ring resonators M Husnik, MW Klein, N Feth, M König, J Niegemann, K Busch, S Linden, ... Nature Photonics 2 (10), 614-617, 2008 | 148 | 2008 |