Published 2009
by Nova Science Publishers in Hauppauge, N.Y .
Written in English
Edition Notes
Includes index.
| Statement | Constantinos Simserides, Anna Zora, and Georgios P. Triberis. |
| Contributions | Zora, Anna., Triberis, Georgios P. |
| Classifications | |
|---|---|
| LC Classifications | QC611.8.L68 S56 2009 |
| The Physical Object | |
| Pagination | p. cm. |
| ID Numbers | |
| Open Library | OL24049580M |
| ISBN 10 | 9781616681418 |
| LC Control Number | 2010001753 |
Low-Dimensional-Carriers-Under-In-Plane-Magnetic-Field-Novel-Ew Adobe Acrobat Reader DCDownload Adobe Acrobat Reader DC Ebook PDF:Work on documents anywhere using the Acrobat Reader mobile app Its packed with all . The reduced symmetry of low dimensional structures enhances decisively the role of the magnetic field orientation, bringing to light novel and unexpected phenomena. In the present book the effect of the application of an in-plane magnetic field upon low dimensional carriers, giving rise to impressive novel phenomena, is presented and discussed. In the present book the effect of the application of an in-plane magnetic field upon low dimensional carriers, giving rise to impressive novel phenomena, is presented and discussed. Physical Properties of the Low-Dimensional A3B6 & A3B3C62 Compounds. Alexander M. Panich Hardback. US$ Add to basket. Low-Dimensional Carriers Under In-Plane Magnetic Field. Constantinos Simserides. 25 Feb Hardback. US$ Add to basket. Supercritical Fluids. Marcel R. Belinsky. 01 Apr Hardback. US$ Add to.
H. Aoki, in Comprehensive Semiconductor Science and Technology, Integer quantum Hall effect, which is the Hall effect quantized into integer times e 2 /h (e: elementary charge, h: Planck’s constant) observed in two-dimensional electron gases in strong magnetic fields, is reviewed from both experimental and theoretical physics underlying the . W.R. Clarke, G.K. Sujan, in Reference Module in Materials Science and Materials Engineering, Zeeman splitting and the g-factor anisotropy. For hole quantum wires, the Zeeman splitting of the 1D subbands is highly dependent on the orientation of the magnetic quantum wires fabricated on ()A heterostructures, the interplay of the confinement . dimensional. Application of a magnetic field leads to confinement of the 2D motion. Fig. shows trajectories of electrons in a real space. By applying a stronger magnetic field, the width of the trajectories becomes increasingly smaller. Eventually, the field confines the width of the trajectory to within one unit cell in the b-direction. Modulation‐doped semiconductor nanostructures exhibit extraordinary electrical and optical properties that are quantum mechanical in nature. The heart of such structures lies in the heterojunction of two epitaxially grown semiconductors with different band gaps. Quantum confinement in this heterojunction is a phenomenon that leads to the quantization of the Author: Shovon Pal, Sascha R. Valentin, Arne Ludwig, Andreas D. Wieck.
Magnetic properties of inhomogeneous nanoisland FeNi films were studied by SQUID magnetometry. The FeNi films with nominal thickness ranging from to nm were deposited by rf sputtering on Sitall glass substrates and covered by a protecting Al2O3 layer on the top. The SQUID data indicate pronounced Cited by: 7. In our work we introduced a new technique and obtained experimental results directly probing the magnetic-field-induced WC. We measured the magneto-resistance of a bilayer electron system where one layer has a very low density and is in the WC regime (½ «1), while the other (“probe”) layer is near ½ = 1/2 and hosts a sea of composite. The low-dimensional perovskites have been employed in field-effect transistors and in light-emitting devices. (9, 10) These devices generally operate under large applied electric field and thus need an even much lower ion migration rate for a reasonable by: Solid State Physics is a textbook for students of physics, material science, chemistry, and engineering. It is the state-of-the-art presentation of the theoretical foundations and application of the quantum structure of matter Pages:
