Wiesendanger, Roland
A
– (BORN, A., WIESENDANGER, R.) Present and future developments
of SPM systems as mass storage devices. – Appl. Phys. A68,
S. 131.
– (HÖLSCHER, H., RABERG, W., SCHWARZ, U. D., HASBACH,
A., WANDELT, K., WIESENDANGER, R.) Imaging of sub-unit-cell structures
in the contact mode of the scanning force microscope. – Phys.
Rev. B59, S. 1661.
– (DREYER, M., KLEIBER, M., WADAS, A., WIESENDANGER, R.)
Composition driven change of magnetic anisotropy of ultrathin
Co/Au (111) films studied by magnetic force microscopy under ultrahigh
vacuum. – Phys. Rev. B59, S. 4273.
– (ALLERS, W., SCHWARZ, A., SCHWARZ, U. D., WIESENDANGER,
R.) Dynamic scanning force microscopy at low temperatures on a
van der Waals surface: graphite (0001). – Appl. Surf. Sci.
140, S. 247.
– (SCHWARZ, A., ALLERS, W., SCHWARZ, U. D., WIESENDANGER,
R.) Simultaneous imaging of the In and As sublattice on InAs(110)-(1x1)
with dynamic scanning force microscopy. – Appl. Surf. Sci.
140, S. 293.
– (HÖLSCHER, H., SCHWARZ, U. D., WIESENDANGER, R.) Calculation
of the frequency shift in dynamic force microscopy. – Appl.
Surf. Sci. 140, S. 344.
– (GETZLAFF, M., BODE, M., PASCAL, R., WIESENDANGER, R.)
The adsorption process of hydrogen on Gd(0001). – Appl. Surf.
Sci. 142, S. 63.
– (GETZLAFF, M., BODE, M., WIESENDANGER, R.) Coadsorption
of H and CO on Gd(0001). – Appl. Surf. Sci. 142, S. 428.
– (GETZLAFF, M., PASCAL, R., TÖDTER, H., BODE, M., WIESENDANGER,
R.) GdFe-2 alloy formation observed by STM. – Appl. Surf.
Sci. 142, S. 543.
– (GETZLAFF, M., BODE, M., HEINZE, S., WIESENDANGER, R.)
New insight into the surface magnetic properties of Gd(0001).
– Appl. Surf. Sci. 142, S. 558.
– (DOMBROWSKI, R., STEINEBACH, CHR., WITTNEVEN, CHR., MORGENSTERN,
M., WIESENDANGER, R.) Determining the tip induced band bending
by scanning tunneling spectroscopy of the states of the tip induced
quantum dot on InAs(110). – Phys. Rev. B59, S. 8043.
– (GETZLAFF, M., BODE, M., PASCAL, R., WIESENDANGER, R.)
Adsorbates on Gadolinium - a combined scanning tunneling microscopy
and photoemission study. – Phys. Rev. B59, S. 8195.
– (ALLERS, W., SCHWARZ, A., SCHWARZ, U. D., WIESENDANGER,
R.) Dynamic scanning force microscopy at low temperatures on a
noble gas crystal: Atomic resolution on the xenon (111) surface.
– Europhys. Lett. 48, S. S. 276.
– (BODE, M., GETZLAFF, M., WIESENDANGER, R.) Quantitative
Aspects of Spin-Polarized Scanning Tunneling Spectroscopy of Gd(0001).
– J. Vac. Sci. Technol. A17, S. 2228.
– (BODE, M., HENNEFARTH, M., HAUDE, D., GETZLAFF, M., WIESENDANGER,
R.) Growth of thin Mn films on W(110) studied by means of in-situ
scanning tunneling microscopy. – Surf. Sci. 432, S. 8.
– (WIESENDANGER, R., BODE, M., GETZLAFF, M.) Recent advances
in spin-polarized scanning tunneling spectroscopy for imaging
of magnetic domains. – J. Magn. Soc. Jpn. 23 (S1), S. 195.
– (WIESENDANGER, R., BODE, M., GETZLAFF, M.) Vacuum-tunneling
magneto-resistance: the role of spin–polarized surface states.
– Appl. Phys. Lett. 75, S. 124.
– (HÖLSCHER, H., ALLERS, W., SCHWARZ, U. D., SCHWARZ,
A., WIESENDANGER, R.) Determination of tip-sample interaction
potentials by dynamic force spec-troscopy. – Phys. Rev. Lett.
83, S. 4780.
– (PASCAL, R., GETZLAFF, M., TÖDTER, H., BODE, M., WIESENDANGER,
R.) GdFe2 alloy formation studied on the atomic scale by scanning
tunneling microscopy. – Phys. Rev. B 60, S. 16109.
– (DREYER, M., KLEIBER, M., WIESENDANGER, R.) Simultaneous
observation of atomic step and domain wall structure of ultra-thin
Co films by magnetic force microscopy in ultrahigh vacuum. –
Appl. Phys. A 69, S. 359.
– (BODE, M., GETZLAFF, M., KUBETZKA, A., PASCAL, R., PIETZSCH,
O., WIESENDANGER, R.) Temperature-dependent exchange splitting
of a surface state on a local–moment magnet: Tb(0001). –
Phys. Rev. Lett. 83, S. 3017.
– (BODE, M., DREYER, M., GETZLAFF, M., KLEIBER, M., WADAS,
A., WIESENDANGER, R.) Recent progress in High-resolution magnetic
imaging using scanning probe techniques. - J. of Physics (Cond.
Mat.) 11, S. 9387.
– (NEPIJKO, S. A., WIESENDANGER, R.) Size dependence of magnetic
characteristics measured on separate nickel particles. –
Semiconductor Physics (Quantum Electronics and Optoelectronics)
2, S. 5.
H
– Applied Physics A (Mitherausgeber; verantwortlich für
das Spezialgebiet "Nanostructure Physics and Technology").
– Springer Series in Nano Science and Technology (Mitherausgeber).