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177 research outputs found

Recording performances in perpendicular magnetic patterned media

Author: Asbahi M Moritz J Dieny B Gourgon C Perret C van de Veerdonk R J M
B Dieny
C Gourgon
C Perret
J Moritz
Landis S
M Asbahi
R J M van de Veerdonk
Terris B D
Publication venue: 'IOP Publishing'
Publication date
Field of study

Photoluminescence and photoluminescence excitation studies of lateral size effects in Zn_{1-x}Mn_xSe/ZnSe quantum disc samples of different radii

Author: C. Gourgon
D. Wolverson
G. Bacher
H. Mayer
J. Griesche
J. J. Davies
L. S. Dang
M. A. Foad
M. Happ
M. Illing
P. J. Klar
P. J. Klar
P. J. Klar
R. Steffen
T. Henning
W. Heimbrodt
Y. M. Niquet
Z. H. Yu
Publication venue: 'American Physical Society (APS)'
Publication date: 17/03/1998
Field of study

Quantum disc structures (with diameters of 200 nm and 100 nm) were prepared from a Zn_{0.72}Mn_{0.28}Se/ZnSe single quantum well structure by electron beam lithography followed by an etching procedure which combined dry and wet etching techniques. The quantum disc structures and the parent structure were studied by photoluminescence and photoluminescence excitation spectroscopy. For the light-hole excitons in the quantum well region, shifts of the energy positions are observed following fabrication of the discs, confirming that strain relaxation occurs in the pillars. The light-hole exciton lines also sharpen following disc fabrication: this is due to an interplay between strain effects (related to dislocations) and the lateral size of the discs. A further consequence of the small lateral sizes of the discs is that the intensity of the donor-bound exciton emission from the disc is found to decrease with the disc radius. These size-related effects occur before the disc radius is reduced to dimensions necessary for lateral quantum confinement to occur but will remain important when the discs are made small enough to be considered as quantum dots.Comment: LaTeX2e, 13 pages, 6 figures (epsfig

arXiv.org e-Print Archive

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Electrical modalities beyond pacing for the treatment of heart failure

In this review, we report on electrical modalities, which do not fit the definition of pacemaker, but increase cardiac performance either by direct application to the heart (e.g., post-extrasystolic potentiation or non-excitatory stimulation) or indirectly through activation of the nervous system (e.g., vagal or sympathetic activation). The physiological background of the possible mechanisms of these electrical modalities and their potential application to treat heart failure are discussed

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