LT NANOPROBE Stage  | © Scienta Omicron
The LT NANOPROBE Stage.

LT NANOPROBE

SPMLT SPMSTMSTSLT STMHDLManipulationNanolithography4P-SPMAFMnc-AFMQPlus AFM

We are sorry. This instrument is not available as component but only as part of our system solutions. Please contact us for any question.

Reference systems

LT Nanoprobe System with SAM | © Scienta Omicron
111301

LT NANPROBE Lab with SAM

The Low Temperature NANOPROBE defines a new class of analytical instrumentation that merges SEM-navigated local transport measurements with atomic scale precision, high performance STM imaging, spectroscopy, and manipulation at LHe temperatures.

The System is additionally equipped with an retractable NanoSAM energy analyser for chemical mapping by Scanning Auger Microscopy.

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LT Nanoprobe | © Scienta Omicron
121523

LT NANPROBE Lab

The Low Temperature NANOPROBE defines a new class of analytical instrumentation that merges SEM-navigated local transport measurements with atomic scale precision, high performance STM imaging, spectroscopy, and manipulation at LHe temperatures.

The System is additionally equipped with extended sample and SPM sensor preparation facilites.

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LT Nanoprobe | © Scienta Omicron
121709

LT NANPROBE Lab for optical Experiments

The Low Temperature NANOPROBE defines a new class of analytical instrumentation that merges SEM-navigated local transport measurements with atomic scale precision, high performance STM imaging, spectroscopy, and manipulation at LHe temperatures.

The System is additionally equipped with a specialised optical access for TERS.

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LT NANPROBE Lab f | © Oak Ridge National Laboratory
150234

LT NANPROBE Lab for Nano-Scale Surface Potentiometry

The Low Temperature NANOPROBE defines a new class of analytical instrumentation that merges SEM-navigated local transport measurements with atomic scale precision, high performance STM imaging, spectroscopy, and manipulation at LHe temperatures.

The System is additionally equipped with special electronics for nano-scale surface potentiometry.

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Materials Innovation Platform with EVO50 MBE, ARPES and LT Nanoprobe at the 2D Crystal Consortium (2DCC-MIP) | © Penn State University
150713

Materials Innovation Platform (MIP) with EVO-50 MBE, ARPES and LT Nanoprobe

The 2DCC-MIP is focused on advancing the synthesis of 2D materials within the context of a national user facility. The 2DCC is developing custom deposition tools with in-situ and real time characterisation and facilities for bulk growth of chalcogenide single crystals. Unique capabilities are also available to simulate growth kinetics through first principles and a reactive potential approach.

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