Submitted by
Huan-Yu Ku on Tue, 14/11/2023 - 11:48.
A 2-year postdoc position is available in the „Quantum correlation, Foundations, and Quantum Information Theory Group“ lead by Dr. Huan-Yu Ku. The duration of the contract can be extended yearly if the performance is good.
Paderborn University is a high-performance and internationally oriented campus universi-ty with around 20,000 students. In interdisciplinary teams, we shape future-oriented re-search, innovative teaching and the active transfer of knowledge to society. As an im-portant research and cooperation partner, the university also shapes regional develop-ment strategies. We offer our more than 2,600 employees in research, teaching, technology and administration a lively, family-friendly and fair working environment with short deci-sion-making processes and a wide range of opportunities.
Submitted by
78marcello on Mon, 13/11/2023 - 13:52.
We're Hiring
Assistant Professor & PostDocs
QuantumInternet.it @ University of Naples Federico II
position information and applications at info@quantuminternet.it
Submitted by
juan_polo on Mon, 13/11/2023 - 07:56.
Dates:
Sunday, May 19, 2024 to Saturday, June 1, 2024
Dear Colleagues,
We would like to draw your attention to the upcoming workshop in the field Atomtronics.
Please find the information below. The number of participants is limited to about 80.
We encourage all participants to register and book accommodation as soon as possible to take advantage of the early registration fee and the accommodation offers.
Apologies for multiple postings.
https://www.benasque.org/2024atomtronics/
Yours Faithfully,
Submitted by
pgora on Fri, 10/11/2023 - 17:49.
Dates:
Saturday, November 18, 2023
Submission deadline:
Friday, November 17, 2023
Registration deadline:
Friday, November 17, 2023
Submitted by
mansari on Fri, 10/11/2023 - 14:11.
Project: The project aims to advance the theory of superconducting processors for accurate modelling. A special focus will be on finding and characterizing the Hamiltonian of a large processor using numerical analysis. This project is part of my commitment to the European Research funding for making 100+ qubits, called OpenSuperQPlus (https://www.opensuperqplus.eu )
Submitted by
slodicka on Fri, 10/11/2023 - 13:15.
2 PhD and 2 PostDoc positions are available in the ion trapping laboratory at Palacky University in Olomouc, Czechia. The positions will be funded within the 5 year Centre of Excellence and are available in the following research directions:
- engineering of quantum nonlinear interactions between photons and phonons in trapped atomic ions,
- realization of the photonic coupling between ions in Paul traps and optically levitated nanoparticles,
- development of the molecular ion source with Helium nanodroplets precooling for quantum logic spectroscopy.
Dates:
Monday, September 2, 2024 to Friday, September 6, 2024
The Qalypso Summer Schools are a series of Summer schools on quantum theory on the island of Gozo, Malta.
The 2024 edition will feature an Advanced Track on the theme of Precision in Quantum Information & Computation and a Basics Track & Hackathon on Quantum Computation.
Advanced Track Themes :
- Quantum Metrology
- Quantum Clocks & Thermodynamics Uncertainty Relations
- Quantum Error Correction
More information at www.qalypso.info
Submitted by
tcubaynes on Thu, 09/11/2023 - 16:54.
We propose to study the interaction between mechanical and electronic degrees of freedom using a Superconducting Quantum Interference Device (SQUID) based on a single suspended carbon nanotube. The project can evolve toward two main directions. The first one aims at observing and generating mechanical quantum states of the carbon nanotube such as Schrödinger cat. The other direction focuses on the study of the dynamics of a single molecular magnet [6] using the nanotube-SQUID as an ultra-sensitive magnetometer.
Submitted by
tcubaynes on Thu, 09/11/2023 - 16:48.
The goal of the project is to study the spin-phonon coupling between a single molecular magnet and the bending modes of a suspended carbon nanotube. A suspended nanotube is a near ideal environment for the spin of the molecule, and it allows to control its phononic environment, which is expected to result in very long coherence time of the molecular spin. This project relies on the realization of a double quantum dot circuit within the carbon nanotube enhancing the scope of experimental exploration, one example being the ground state cooling of the carbon nanotube vibration.
Pages
