Plasmon-enhanced sub-wavelength laser ablation: plasmonic nanojets

In response to the incident light's electric field, the electron density oscillates in the plasmonic hotspots producing an electric current. Associated Ohmic losses raise the temperature of the material within the plasmonic hotspot above the melting point. A nanojet and nanosphere ejection can...

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Veröffentlicht in:	Advanced Materials 2012-03, Vol.24 (10), p.29-35
Hauptverfasser:	V. K. Valev, Ventsislav, Denkova, Denitza, Zheng, Xuezhi, Kuznetsov, Arseniy, Reinhardt, Carsten, Chichkov, Boris, Tsutsumanova, Gichka, Osley, Edward, Petkov, Veselin, De Clerck, Ben, Silhanek, Alejandro, Jeyaram, Yogesh Sharma, Volskiy, Vladimir, Warburton, Paul, Vandenbosch, Guy, Russev, Stoyan, Aktsipetrov, Oleg, Ameloot, Marcel, Moshchalkov, Victor, Verbiest, Thierry
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creator	V. K. Valev, Ventsislav Denkova, Denitza Zheng, Xuezhi Kuznetsov, Arseniy Reinhardt, Carsten Chichkov, Boris Tsutsumanova, Gichka Osley, Edward Petkov, Veselin De Clerck, Ben Silhanek, Alejandro Jeyaram, Yogesh Sharma Volskiy, Vladimir Warburton, Paul Vandenbosch, Guy Russev, Stoyan Aktsipetrov, Oleg Ameloot, Marcel Moshchalkov, Victor Verbiest, Thierry
description	In response to the incident light's electric field, the electron density oscillates in the plasmonic hotspots producing an electric current. Associated Ohmic losses raise the temperature of the material within the plasmonic hotspot above the melting point. A nanojet and nanosphere ejection can then be observed precisely from the plasmonic hotspots.
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title	Plasmon-enhanced sub-wavelength laser ablation: plasmonic nanojets
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