13 Positions - Berlin, Deutschland - Springer Nature

Springer Nature
Springer Nature
Geprüftes Unternehmen
Berlin, Deutschland

vor 2 Tagen

Lena Wagner

Geschrieben von:

Lena Wagner

beBee Recruiter
Beschreibung

13 positions - Research Assistant (PostDoc)
  • salary grade E13 TV-L Berliner Hochschulen
:

  • Employer
  • Technische Universität Berlin
  • Location
  • Berlin (DE)
  • Salary
  • salary grade E13 TV-L Berliner Hochschulen
  • Closing date
  • 11 Jun 2024
  • Discipline
Physics
Job Type
Research Assistant
Employment - Hours
Full time
Duration
Fixed term
Qualification
PhD
Sector
Academia- You need to sign in or create an account to a job.

The Berlin Quantum Initiative together with the Technische Universität Berlin, the Freie Universität Berlin, and the Humboldt-Universität zu Berlin offer the following open positions:13 positions - Research Assistant (PostDoc)
  • salary grade E13 TV-L Berliner Hochschulen
- 2nd qualification period (Habilitation)

part-time employment may be possible


Berlin Quantum (BQ)

Working field:


The positions contain teaching responsibilities.

Generating non-classical states with a quantum memory (P1)

Controlling quantum states of light via reservoir engineering (Theory) (P2)

Ultra-precisely verifying quantum devices (P3)

Quantum state engineering in van der Waals heterostructures (P4)

Exploiting High-Dimensional Entanglement for Quantum Networking (P5)

Taming quantum fluctuation-induced phenomena (P6)

Realizing holographic codes on quantum devices (P7)

Control of quantum reservoir engineering for robust state preparation (P8)
In adiabatic master equations, the jump operators become dependent on external drives of the system.

The goal of this project is to understand this dependence and use it to derive robust protocols to prepare useful quantum states, such as entangled states or squeezed states [project description P8].

For further information please contact Christiane Koch (FU Berlin)


Efficient Tomography for Quantum Information Processing (P9)

Quantum Sensing with Many Undetected Photons (P11) Quantum sensing with undetected photons is an emerging technique facilitating sensing with under-explored wavelengths like mid
- and far-infrared. This project aims to extend this technique to the many-photon regime, enabling the exploration of uniquely quantum phenomena including super-sensitivity and loss-tolerance [project description P11]. For further information please contact Sven Ramelow (HU Berlin)


Narrowband photon pair source based on nonlinear photon transport (P12)

Scalable Quantum Photonic Circuits based on On-Demand Quantum Emitters (P13)

Digital and analog simulation of many-body dynamics (P 14)
This theory project investigates quantum algorithms for many-body quantum dynamics that are individually designed for different hardware architectures ranging from qubit


Quantum Photonic Integrated Circuits for Information Processing (P 15)

Optimization-Driven Quantum Circuit Decomposition (OptQCD) (P 16)

Quantum-enhanced sensing using open quantum systems (P 17)

Requirements:


P(5): Comprehensive knowledge and several years of practical experience in quantum optics experiments, usually documented by several scientific publications, as well as advanced basic knowledge in the field of quantum information and communication are required. Practical experience in programming with LabView (or similar software) as well as the handling of closed-cycle cryostats and superconducting single photon detectors are desirable. Communication and team skills are expressly welcomed.

P(6): Strong knowledge of and interest in theoretical physics; Good mathematical skills and good knowledge of programming languages (e.g. C++, Python, Julia)

P(7): Strong background in the theory of quantum computation and quantum error correction.

P(8): Excellent knowledge of the theory of open quantum systems. Desirable a background in theoretical quantum optics.

P(10): Experience in quantum computing and secure quantum communication.

P(11): Experimental experience in spontaneous parametric down-conversion highly desired.


P(14): Programming experience.


P(15): Ph.
D. in Physics focusing on quantum photonics, integrated device design, fabrication, and COMSOL simulations. Work experience at interface of science and technology, innovation skills (e.g. patented ideas). Skills in III-V device design and fabrication, in optoelectronic device characterization. Expertise in Matlab, C++, and Python. Interdisciplinary collaboration skills. Creative, innovative, adept at problem-solving. Ambitious, independent, and goal-driven, open to new challenges. Excellent English (C1).

P(16): Knowledge in nonlinear optimization and numerical optimization techniques as well as strong interest in innovative approaches and research questions in quantum computing, quantum simulation and quantum information.

P(17): Previous theoretical experience in at least one of the fields of quantum many-body physics, quantum sensing, and/or open quantum systems, as well as strong numerical skills.

Postal address:
Anja Meyer do Nasc
Mehr Jobs von Springer Nature
Alle Jobs von Springer Nature anzeigen