Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
Ariel University, Physics Position ID: Ariel University-Physics-PHD_COMM [#30097] Position Title: Position Location: Ariel, 40700, Israel [map ] Subject Areas: Physics / Accelerator and Beam
-
laboratory. Transmission electron microscopy will be used for a structural, chemical, and electronic study of high electron mobility transistors (HEMTs) based on Niobium nitride (NbN) as part of this contract
-
state-of-the-art lab methodology, comprising electron beam lithography (EBL), oxide sputtering, atomic force microscopy (AFM), and transport measurements. WORK-LIFE BALANCE: We offer flexible working
-
its employees in reconciling work and family life and regularly undergoes the audit berufundfamilie® . Further information at: http://www.ifw-dresden.de . The Institute for Emerging Electronic
-
the high-energy electrons and the laser pulse [2-4], and (ii) the use of multiple foils to focus the electron beam to very small size, and use the focused electron beam itself as the source of strong fields
-
for new applications in microelectronics (silicidation for electrical contacts) and photonics (waveguide writing). The researcher will also be responsible for implementing beam-shaping techniques to produce
-
to strengthen the department’s competences within integrated optical phased array (OPA) for solid-state optical beam steering and application of OPA for LiDAR and biosensing and free-space optical communications
-
with the newly installed Thermo Fisher Helios Hydra UX dual beam and state of the art TEM Thermo Fisher Spectra Ultra with Thermo Fisher Illiad EELS sys-tem in IKZ’s Application Lab for In Situ Electron
-
students also are expected to take up teaching assistant tasks. The experimental work involves the study of clusters in molecular beams using mass spectrometry, infrared and visible light spectroscopy using
-
films and test their structural and electrical properties for use as photovoltaic electrodes. The idea is to induce nanowire aggregation within a polymer matrix using an optical beam confinement method