TY - JOUR
T1 - Laser field alignment of organic molecules on semiconductor surfaces
T2 - Toward ultrafast molecular switches
AU - Reuter, Matthew G.
AU - Sukharev, Maxim
AU - Seideman, Tamar
PY - 2008/11/12
Y1 - 2008/11/12
N2 - An ultrafast, nanoscale molecular switch is proposed, based on extension of the concept of nonadiabatic alignment to surface-adsorbed molecules. The switch consists of a conjugated organic molecule adsorbed onto a semiconducting surface and placed near a scanning tunneling microscope tip. A low-frequency, polarized laser field is used to switch the system by orienting the molecule with the field polarization axis, enabling conductance through the junction. Enhancement and spatial localization of the incident field by the metallic tip allow operation at low intensities. The principles of nonadiabatic alignment lead to switch on and off time scales far below rotational time scales.
AB - An ultrafast, nanoscale molecular switch is proposed, based on extension of the concept of nonadiabatic alignment to surface-adsorbed molecules. The switch consists of a conjugated organic molecule adsorbed onto a semiconducting surface and placed near a scanning tunneling microscope tip. A low-frequency, polarized laser field is used to switch the system by orienting the molecule with the field polarization axis, enabling conductance through the junction. Enhancement and spatial localization of the incident field by the metallic tip allow operation at low intensities. The principles of nonadiabatic alignment lead to switch on and off time scales far below rotational time scales.
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U2 - 10.1103/PhysRevLett.101.208303
DO - 10.1103/PhysRevLett.101.208303
M3 - Article
C2 - 19113386
AN - SCOPUS:56249083872
SN - 0031-9007
VL - 101
JO - Physical review letters
JF - Physical review letters
IS - 20
M1 - 208303
ER -