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Your search for "phd position spin wave generation in quantum materials" yielded 25935 hits

PHD-Application-Instruction ENG

Lund University INSTRUCTIONS FOR APPLICATION Department of Psychology TO THE DOCTORAL PROGRAM How to apply Applications to the doctoral program are announced on the website and registered through the university's application portal at the latest on the deadline. The deadline for the open application is March 1st . All application documents must be uploaded via the application portal. The applicati

https://www.psy.lu.se/en/sites/psy.lu.se.en/files/2026-01/PHD-Application-Instruction%20ENG.pdf - 2026-07-17

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Ultracold quantum gases with long-range anisotropic interactions host novel exotic phases of matter, such as supersolids, exhibiting both rigid and superfluid characteristics. The impact of this interplay on the out-of-equilibrium dynamics of dipolar gases, and in particular its connection with universal turbulent behavior, remains highly unexplored. Here, upon considering a dipolar Bose-Einstein

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Quantum dots embedded in an electronic circuit allow precise control over the charge transport behaviour of the system: Charge carriers can be individually trapped or precisely shuffled between a series of quantum dots in a strictly sequential manner. This introduces ideal conditions to study fundamental quantum physics and such devices are in the focus of extensive efforts to develop quantum info

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A general theoretical approach to study the quantum kinetics in a system coupled to a bath is proposed. Starting with the microscopic interaction, a Lindblad master equation is established, which goes beyond the common secular approximation. This allows for the treatment of systems, where coherences are generated by the bath couplings while avoiding the negative occupations occurring in the Bloch-

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The coherent coupling of photons to solid state emitters is one of the building blocks for future quantum technology. However, one of the main sources for non-perfect or even strongly reduced coherence of the photons is charge noise which introduces energy shifts during or in between the photon emission events. In particular solid-state emitters in nanostructures suffer from such spectral diffusio

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The light output of quantum cascade lasers is strongly affected by electric field-domain oscillations if the laser shows electrical instabilities. This can result in a substantial broadening of the emission spectrum, which is investigated here by detailed simulations for a terahertz device. We explain how the light pulsation is affected by electrical injection conditions and external capacitances.

MULTICOM: an Erasmus Mundus Joint MA programme bridging humanities and technology

MULTICOM: an Erasmus Mundus Joint MA programme bridging humanities and technology MULTICOM: an Erasmus Mundus Joint MA programme bridging humanities and technology By Malin Sjöberg - Published 10 October 2025 [Translate to English:] MULTICOM is the first Erasmus Mundus Master's programme in the humanities at Lund University, reflecting a current trend where humanistic expertise meets technological

https://www.sol.lu.se/en/article/multicom-nytt-erasmus-mundus-masterprogram-i-maensklig-kommunikation-och-data-science/ - 2026-07-16

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Advances in ultrafast spectroscopy can provide access to dynamics involving nontrivial quantum correlations and their evolutions. In coherent 2D spectroscopy, the oscillatory time dependence of a signal is a signature of such quantum dynamics. Here, we study such beating signals in electronic coherent 2D spectroscopy of CdSe quantum dots (CdSe QDs) at 77 K. The beating signals are analyzed in term

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In this Letter, we explore the use of thermodynamic length to improve the performance of experimental protocols. In particular, we implement Landauer erasure on a driven electron level in a semiconductor quantum dot, and compare the standard protocol in which the energy is increased linearly in time with the one coming from geometric optimization. The latter is obtained by choosing a suitable metr

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Quantum devices depend on addressable elements, which can be modified separately and in their mutual interaction. Self-assembly at surfaces, for example, formation of a porous (metal-) organic network, provides an ideal way to manufacture arrays of identical quantum boxes, arising in this case from the confinement of the electronic (Shockley) surface state within the pores. We show that the electr

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The fate of the Fermi surface in bulk electron-doped Sr2IrO4 remains elusive, as does the origin and extension of its pseudogap phase. Here, we use high-resolution angle-resolved photoelectron spectroscopy (ARPES) to investigate the electronic structure of Sr2−xLaxIrO4 up to x = 0.2, a factor of two higher than in previous work. We find that the antinodal pseudogap persists up to the highest dopin