Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Medical Sciences
- Economics
- Computer Science
- Engineering
- Materials Science
- Biology
- Business
- Education
- Science
- Physics
- Electrical Engineering
- Psychology
- Arts and Literature
- Chemistry
- Humanities
- Mathematics
- Philosophy
- Law
- Sports and Recreation
- Earth Sciences
- Environment
- Social Sciences
- 12 more »
- « less
-
the presence of environmental noise with spatio-temporal correlation. Where to apply Website https://www.ucm.es/personal-contratado-de-actividades-cientifico-tecnicas-pli-u… Requirements Research
-
and 3He-4He dilution refrigerators, based on both liquid 4He and cryofree cryostats. Ultra-low Vibration Techniques Concepts, operation and maintenance of ultra-low vibration experiments, including
-
Vibration Techniques Concepts, operation and maintenance of ultra-low vibration experiments, including control of mechanical, acoustic, cabling, vacuum-line, and cryogenic noise. • High-field Superconducting
-
Description PhD Student (f/m/d) EU MSCA-Doctorate Network COMBINE: Experimental analysis and simulation of flow-induced vibration in gas-liquid two-phase flow With cutting-edge research in
-
refrigerators, based on both liquid 4He and cryofree cryostats. • Ultra-low Vibration Techniques Concepts, operation and maintenance of ultra-low vibration experiments, including control of mechanical, acoustic
-
induced by rail traffic. Design tools for monitoring vibrations induced by rail traffic. Collaborate in the writing of scientific articles. Where to apply Website https://seuelectronica.upc.edu/en
-
, ultra-low noise measurement electronics Familiarity with ultra-low noise current and voltage amplifiers or other instruments used to control complex sequences of signals applied to devices to assist
-
clinical practice opportunities, and are offered in 13-week blocks, which may be renewed up to a maximum of 39 weeks. $2,500.00 incentive bonus with first 13-week assignment. Please visit: https://https
-
multiple 2D images and multiple channels, (d) optimizing 2D projection viewpoints (dose reduction and time savings), (e) applying artificial intelligence and traditional machine learning models to noise
-
& Noise.” The project develops routing and optimisation methods for quantum communication networks operating under decoherence and noise constraints. Core duties include: (i) developing and benchmarking