nanoelectronics.unibas.ch
Quantum- and NanoelectronicsHomepage of the Nanoelectronics Group of the University of Basel
http://nanoelectronics.unibas.ch/
Homepage of the Nanoelectronics Group of the University of Basel
http://nanoelectronics.unibas.ch/
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Quantum- and Nanoelectronics | nanoelectronics.unibas.ch Reviews
https://nanoelectronics.unibas.ch
Homepage of the Nanoelectronics Group of the University of Basel
Nanoelectronics - Uni Basel - People
https://nanoelectronics.unibas.ch/people.php
How to find us. Christian Schönenberger ( Personal Page. Phone 41 61 267 36 90. Fax 41 61 267 37 84. Michel Calame ( Personal Page. Phone 41 61 267 36 97. Fax 41 61 267 37 84. Phone 41 61 267 39 06. Phone 41 61 267 37 80. Phone 41 61 267 37 80. Gergő Fülöp. Phone 41 61 267 39 06. Phone 41 61 267 37 03. Phone 41 61 267 39 06. Phone 41 61 267 37 03. Phone 41 61 267 37 80. Phone 41 61 267 37 03. Phone 41 61 267 38 64. Phone 41 61 267 38 64. Phone 41 61 267 37 03. Phone 41 61 267 37 80. Phone 41 61 267 38 64.
Nanoelectronics - Uni Basel - Publications
https://nanoelectronics.unibas.ch/publications.php
How to find us. Browse the PhD theses. Here you find our published or submitted papers. Click on the titles to see the abstracts:. Magnetoresistance engineering and singlet/triplet switching in InAs nanowire quantum dots with ferromagnetic sidegates. G Fabian, M.H. Madsen, J. Nygård, C. Schönenberger, A. Baumgartner. Gate-controlled conductance enhancement from quantum Hall channels along graphene p-n junctions. Full characterization of a carbon nanotube based parallel double quantum dot. Spin transport ...
Nanoelectronics - Uni Basel - Education
https://nanoelectronics.unibas.ch/education.php
How to find us. Information and materials for current and past lectures and exercises. Offers for master students and project students. We may have opportunities for. Semester projects ( bachelor students. Master thesis projects ( masters students. See below for details. Feel free to contact Michel Calame. Molecular electronics), Andreas Baumgartner. Carbon nanotubes, graphene) or Prof. Schönenberger. If you are looking for a project. 2008-2016 Basel Universität, Departement Physik, Nanoelectronics.
Nanoelectronics - Uni Basel - Internals
https://nanoelectronics.unibas.ch/internals.php
How to find us. This page redirects you to the local server of the MESO-group. This server runs behind a firewall and has therefore restricted acess:. The server is setup in browser mode (and access may request a password). You can post important information and files yourself by accessing the server directly (not via the Web site). Posting files asks for rules, which are:. A) use filenames that allow everyone to understand what the document is about (the length does not matter).
Nanoelectronics - Uni Basel - People
https://nanoelectronics.unibas.ch/people/Christian/Christian.php
How to find us. Prof Dr. Christian Schönenberger. Christian Schönenberger is a professor in experimental condensed matter physics at the University of Basel, where he leads the nanoelectronics group. His research interest is in unravelling fundamental aspects of charge transport in nanodevices. By conducting novel experiments. He is advisor for many public organizations and an elected life-time member of the Swiss Academy of Technical Sciences. In the early time of scanning-probe microscopy. NL) where he...
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Projects | Nano-Photonics
https://nano-photonics.unibas.ch/projects
Single Spins, Single Photons. Quantum Optics in the Solid-State. Demonstration of a decoupling of a hole spin qubit from the nuclear spin noise. The experiments set a lower bound on. Demonstration of transform-limited optical linewidths. Frequency-locking of a quantum dot single photon source. To a reference laser. Nuclear magnetic resonance on a quantum dot. Charge noise and spin noise in the quantum dot spectrum. Development of the hole spin qubit in a self-assembled quantum dot. Detection of quantum d...
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Nano Electronics
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EC 100 Laboratory
Research and Education for Tomorrow's Nanotechnology". Bannan Engineering Bldg. 404, 1st Floor. 500 El Camino Real. Santa Clara, CA 95053. 169; 2007 SCU Center for Nanostructures.
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nanoelectronics.physics.bme.hu
Nanoelectronics Research Group | Department of Physics
Atomic and molecular electronics. Atomic and Molecular Electronics. Spin-orbit tuning in nanowires. Electrical tuning of Rashba spin-orbit interaction is demonstrated in InAs nanowires. Results are published in PRB. Quantum Hall Channels in graphene. Trajectories of quantized conductance are set in the bulk and controlled by gate electrodes. Published in Nanoscale. Asymmetry-induced resistive switching in Ag-Ag2S-Ag memristors. Quantum dots in graphene. Electron interference in a CPS. Break Junction Meas...
Quantum- and Nanoelectronics
Based on a semiconducting nanowire. Is interested in fundamental electrical properties of engineered nanoscaled devices. Operating in the quantum regime. We probe these devices by electrical transport measurements. Both at low (close to DC) and high frequency (GHz range) and at cryogenic temperatures (Kelvin to milli Kelvin). Our devices are based on novel materials with reduced dimensions. CNTs), quasi one-dimensional semiconducting nanowires. NWs) or two-dimensional graphene. Research activities / proj...
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Microfabricacion y Nanomanufacturacion
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