Result of the Month (ROM)

June 2019

In this work, Kolmer et al. directly observe quasi-1D electronic transport channels provided by the unoccupied surface states running along the dimer rows on the Ge(001) surface. The experiments are made using a two-probe scanning tunneling spectroscopy approach allowed by an atomically precise STM probe positioning protocol with relative probe-to-probe separation distances down to 30 nm.

More info


TESLA JT SPM

First system for China

TESLA JT SPM

Scienta Omicron, the market leader in scientific UHV instrumentation, and University of Science and Technology of China (USTC), a famous SPM hub in China, signed a contract for a state-of-the-art TESLA JT SPM instrument. The TESLA JT SPM will be installed in the Research Building for Material Science within the East campus of USTC. 

More info


Out now!

Spring 2019 Newsflyer

Out now!

This issue features Materials Innovation Platform (MIP); HAXPES Lab – now available for lab use; the new DA20 ARPES Analyzer; breakthrough for spin-filtered momentum microscopy based on experiments by Dr. Christian Tusche using the NanoESCA end-station synchrotron Elettra, Italy; HREELS for the ARPES-Lab; TESLA JT SPM – a versatile 1K SPM; Autonomous Atomic Scale Manufacturing through Machine Learning; XPS-Lab; LT STM; and QSpeed AFMTM. 

Please download the new Scienta Omicron newsflyer here


MIP

Materials Innovation Platform (MIP)

MIP

Materials Innovation Platforms (MIP) integrate instrumentation for growth and detailed characterization of samples in-situ. The sample quality is preserved by maintaining UHV conditions, the analysis and growth can be done at intermediate process steps and performed far more rapidly compared to separated instrumentation.

More info


New Brochure

NanoESCA

New Brochure
  • Live View energy-filtered real & momentum space imaging
  • Precise sample spot definition for small area ARPES
  • One-shot 180° ARPES overview without sample movement
  • LHe cooled microscope sample stage and dedicated light-sources
  • Excellent 2D imaging energy- resolution (< 25 meV)

Please download the new brochure here


New Infosheet

XPS-Lab

The new XPS-Lab has been designed to combine outstanding quantitative XPS performance and ease of operation with a modular sample handling concept. The exceptional value of the XPS-Lab is based on the high-transmission, high-speed Argus CU hemispherical analyser.

Link to download

XPS-Lab 


Feedback