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[交流] 10 PhD candidates wanted from The School for Contacts in Nanosystems

http://www.nth-nano.de/fileadmin ... CinN_first_call.pdf
The School for Contacts in Nanosystems invites applications for
PHD FELLOWSHIPS
The PhD programme Contacts in Nanosystems brings together the expertise of physicists and engineers at the three German universities in Braunschweig, Clausthal-Zellerfeld and Hannover joining with PTB Braunschweig to achieve a better understanding and control of contact effects in nanostructures.
The School for Contacts in Nanosystems promotes students at different levels of education and introduces them to cutting-edge research in experimental and theoretical projects performed by the partners involved. Entry to the programme is available to graduates with a master's or diploma degree in physics, technical physics, material science, nanotechnology, electrical engineering, or similar degrees. The School for Contacts in Nanosystems also supports fast track careers for students with an excellent bachelor's degree.
For detailed information, please refer to the webpage (www.nth-nano.de).
In the first round, up to 10 new fellowships will be granted starting February, 1th 2015. Students interested in nanosystems can apply up to December, 15th 2014. The application (including application form, official transcripts, statement of purpose, CV, and at least one letter of recommendation) should be sent as PDFs via e-mail to: Nanosystems@nano.uni-hannover.de. See our website for details on the registration.

http://www.nth-nano.de

One of the major problems in the use of nanotechnology is the connection of nanostructures with the macroscopic world. Topic of the PhD programme "Contacts in Nanosystems: Interactions, Control and Quantum Dynamics" is therefore the control of the contact to nanosystems. The contact is understood here not only as an electrical contact between two conductors, but in the more general sense as the coupling and interaction between the two systems, which can be of different dimension. Coupling effects can be purely electrical in nature and be caused by the Coulomb interaction, but can also involve the spin of the charge carriers, or also include the coupling to plasmonic excitations.
The focus of investigations is on interaction effects and studies of control and quantum dynamics in particular of quantum dots and nanowires. These systems are studied experimentally and theoretically in terms of their electrical, magnetic, optical, thermal and mechanical properties.

The working groups of the PhD programme have access to a broad material base. Particularly with regard to III-V semiconductor heterostructure systems, the groups are excellently equipped. So there is in Braunschweig a focus for GaN epitaxy and also in Clausthal GaN epitaxy is operated and studied, while in Hannover, at the PTB and also in Clausthal GaAs / AlGaAs / InAs systems are grown and investigated. However, novel material systems, such as topological insulators and the unique material graphene are also used since a number of similarities and synergies of these material systems exist with III-V - semiconductor systems.

In addition to pure basic research, the PhD theses work on application aspects in particular. The research projects allow a deep understanding of the contact phenomena, so that systems can be designed and constructed with new functionalities in application fields such as sensor technology, energy technology, communication technology, but also medical technology.

A list of possible PhD projects we offer at the moment. Click on the project ID or title to get an abstract of the project. Applicants should refer to these projects with the project ID in their apllication.

http://www.nth-nano.de/offeredphd-projects.html

Project ID

Main Supervisor

Co-
Supervisor

Location

Title

P1

Brenig

Braunschweig

Real time dynamics of energy and spin currents in finite quantum magnets

P2

Daum

Waag

Clausthal

Electrochemical nanocontacts of semiconductors: surface corrosion and corrosion inhibition

P3

Frahm

Recher

Hannover

Non-Abelian quasi-particles in electronic systems

P4

Hangleiter

Haug

Braunschweig

Realization and properties of III-nitride resonant tunneling structures

P5

Haug

Zwicknagl

Hannover

Transport through quantum dot systems in the Kondo regime

P6

Haug

Recher

Hannover

Transport through graphene nanostructures

P7

Jeckelmann

Hannover

Electronic correlations and quantum dynamics in ultrathin nanowires

P8

Lemmens

Haug, Oestreich, Recher

Braunschweig

Effect of quantum well states on topological insulators and other spin orbit coupling dominated systems

P9

Oestreich

Hannover

Interaction of few-spin systems with their environment

P10

Pfnür

Daum

Hannover

Nanoplasmonics with low-dimensional plasmons

P11

Pfnür

Daum

Hannover

Contacting single molecules with and without optical excitation

P12

Recher

Braunschweig

Detection of exotic excitations in topological insulators and superconductors

P13

Schaadt

Lemmens

Clausthal

Plasmon coupling for efficiency enhancement in energy harvesting

P14

Schaadt

Oestreich

Clausthal

Spin dynamics in Cu-doped group III-nitride

P15

Schumacher

Braunschweig

Dynamics of thermal spin torques in magnetic tunnel contacts

P16

Waag

Daum

Braunschweig

Contacts to Nanowire LEDs and other optoelectronic devices

P17

Zwicknagl

Haug

Braunschweig

Renormalized Perturbation Theory (RPT) and transport through quantum dots in the Kondo regime

http://www.nth-nano.de/fileadmin ... CinN_first_call.pdf

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