Andrei Rode
TitleCited byYear
Ablation of solids by femtosecond lasers: Ablation mechanism and ablation thresholds for metals and dielectrics
EG Gamaly, AV Rode, B Luther-Davies, VT Tikhonchuk
Physics of plasmas 9 (3), 949-957, 2002
Unconventional magnetism in all-carbon nanofoam
AV Rode, EG Gamaly, AG Christy, JGF Gerald, ST Hyde, RG Elliman, ...
Physical Review B 70 (5), 054407, 2004
Ultrafast ablation with high-pulse-rate lasers. Part I: Theoretical considerations
EG Gamaly, AV Rode, B Luther-Davies
Journal of Applied Physics 85 (8), 4213-4221, 1999
Giant optical manipulation
VG Shvedov, AV Rode, YV Izdebskaya, AS Desyatnikov, W Krolikowski, ...
Physical review letters 105 (11), 118103, 2010
Long, low loss etched As2S3 chalcogenide waveguides for all-optical signal regeneration
SJ Madden, DY Choi, DA Bulla, AV Rode, B Luther-Davies, VG Ta’eed, ...
Optics express 15 (22), 14414-14421, 2007
Fabrication and characterization of low loss rib chalcogenide waveguides made by dry etching
Y Ruan, W Li, R Jarvis, N Madsen, A Rode, B Luther-Davies
Optics express 12 (21), 5140-5145, 2004
Revealing local field structure of focused ultrashort pulses
C Hnatovsky, V Shvedov, W Krolikowski, A Rode
Physical Review Letters 106 (12), 123901, 2011
Optical guiding of absorbing nanoclusters in air
VG Shvedov, AS Desyatnikov, AV Rode, W Krolikowski, YS Kivshar
Optics Express 17 (7), 5743-5757, 2009
Ultrafast ablation with high-pulse-rate lasers. Part II: Experiments on laser deposition of amorphous carbon films
AV Rode, B Luther-Davies, EG Gamaly
Journal of Applied Physics 85 (8), 4222-4230, 1999
Breakthrough switching speed with an all-optical chalcogenide glass chip: 640 Gbit/s demultiplexing
M Galili, J Xu, HCH Mulvad, LK Oxenl°we, AT Clausen, P Jeppesen, ...
Optics Express 17 (4), 2182-2187, 2009
Formation of cluster-assembled carbon nano-foam by high-repetition-rate laser ablation
AV Rode, EG Gamaly, B Luther-Davies
Applied Physics A 70 (2), 135-144, 2000
Photophoretic manipulation of absorbing aerosol particles with vortex beams: theory versus experiment
AS Desyatnikov, VG Shvedov, AV Rode, W Krolikowski, YS Kivshar
Optics Express 17 (10), 8201-8211, 2009
Materials processing with a tightly focused femtosecond laser vortex pulse
C Hnatovsky, VG Shvedov, W Krolikowski, AV Rode
Optics letters 35 (20), 3417-3419, 2010
Evidence of superdense aluminium synthesized by ultrafast microexplosion
A Vailionis, EG Gamaly, V Mizeikis, W Yang, AV Rode, S Juodkazis
Nature communications 2 (1), 1-6, 2011
Water droplet motion control on superhydrophobic surfaces: exploiting the Wenzel-to-Cassie transition
G Liu, L Fu, AV Rode, VSJ Craig
Langmuir 27 (6), 2595-2600, 2011
Structural analysis of a carbon foam formed by high pulse-rate laser ablation
AV Rode, ST Hyde, EG Gamaly, RG Elliman, DR McKenzie, S Bulcock
Applied Physics A 69 (1), S755-S758, 1999
Table-top 50-W laser system for ultra-fast laser ablation
B Luther-Davies, VZ Kolev, MJ Lederer, NR Madsen, AV Rode, ...
Applied Physics A 79 (4-6), 1051-1055, 2004
Small atomic displacements recorded in bismuth by the optical reflectivity of femtosecond laser-pulse excitations
D Boschetto, EG Gamaly, AV Rode, B Luther-Davies, D Glijer, T Garl, ...
Physical review letters 100 (2), 027404, 2008
Selective trapping of multiple particles by volume speckle field
VG Shvedov, AV Rode, YV Izdebskaya, AS Desyatnikov, W Krolikowski, ...
Optics express 18 (3), 3137-3142, 2010
Subpicosecond laser ablation of dental enamel
AV Rode, EG Gamaly, B Luther-Davies, BT Taylor, J Dawes, A Chan, ...
Journal of Applied Physics 92 (4), 2153-2158, 2002
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Articles 1–20