24 research outputs found
Observation of strong surface state effects in the nonlinear magneto-optical response of Ni(110)
Spectroscopic magnetization induced optical Second Harmonic Generation (MSHG)
measurements from a clean Ni(110) surface reveal strong resonance effects near
2.7 eV that can be attributed to the presence of an empty surface state. The
good agreement with model calculations shows the potential of MSHG to probe
spin polarized interface band structures.Comment: REVTeX/EPS figures/Authors's single Postsript file, to appear in PRL,
our new phase-sensitive detection technique is used (see PRB, 58, R16020
(1998)), for more details see http://www.sci.kun.nl/tvs/people/petukhov
Transition from tunneling to direct contact in tungsten nanojunctions
We apply the mechanically controllable break junctions technique to
investigate the transition from tunneling to direct contact in tungsten. This
transition is quite different from that of other metals and is determined by
the local electronic properties of the tungsten surface and the relief of the
electrodes at the point of their closest proximity. The conductance traces show
a rich variety of patterns from the avalanche-like jump to a mesoscopic contact
to the completely smooth transition between direct contact and tunneling. Due
to the occasional absence of an adhesive jump the conductance of the contact
can be continuously monitored at ultra-small electrode separations. The
conductance histograms of tungsten are either featureless or show two distinct
peaks related to the sequential opening of spatially separated groups of
conductance channels. The role of surface states of tungsten and their
contribution to the junction conductance at sub-Angstrom electrode separations
are discussed.Comment: 6 pages, 6 figure
Laser-focused nanofabrication: Beating of two atomic resonances
Contains fulltext :
92604.pdf (publisher's version ) (Open Access
Deposition of magnetic nanostructures of atomic lithography: Semiclassical simulation
Contains fulltext :
92670.pdf (publisher's version ) (Open Access
Laser manipulation of iron for nanofabrication
Contains fulltext :
57617.pdf (publisher's version ) (Open Access)We fabricate iron nanolines by depositing an atomic beam of iron through a far-off resonant laser standing wave (SW) onto a glass-ceramic substrate. The laser SW is tuned 200 MHz above the D-5(4)-->F-5(5)o Fe-56 transition at a vacuum wavelength of 372.099 nm. The resulting nanolines exhibit a period of 186 nm, a height above the background of 8 nm and a full width at half maximum of 95 nm. These nanostructures cover a surface area of similar or equal to1.6x0.4 mm(2), corresponding to similar or equal to8600 iron lines with a length of similar or equal to400 mum. (C) 2004 American Institute of Physics
Strong self- and cross-phase modulation effects in chromium-doped KTiOPO4 crystals
Contains fulltext :
92631.pdf (publisher's version ) (Closed access