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Scanning Near-Field Optical Microscope...
News - 28 Aug 2018
Semiconducting heterostructures have been vital to the advancement of electronics and opto-electronics. Various applications in the terahertz and infrared frequency range make use of transitions,...
Article - 21 Apr 2005
Scanning Near-Field Optical Microscopes (SNOM or NSOM) offer far greater resolution than traditional optical microscopes. Conducting experiments using SNOM, feedback mechanisms, Photon Scanning...
Article - 23 Jun 2010
SNOM is the acronym for Scanning Near-Field Optical Microscopy, an alternative name for NSOM (Near-Field Scanning Optical Microscopy). The resolution achieved is far better than that which...
Article - 26 Jul 2006
Combining Atomic Force Microscopy (AFM) and fluorescence microscopy (FM) has long been of interest for biologists.
News - 22 May 2018
The holy grail of novel materials is believed to be nanostructures. For instance, the wonder material - graphene - is a one layer of carbon atoms that are organized in a hexagonal pattern, and thanks...
News - 1 Apr 2019
High-resolution optical microscopy techniques assure innovations in biology, medicine, and materials science. Now, their potentials essentially reach those of scanning electron...
News - 11 Jul 2014
Bruker today announced the release of Inspire™, the first integrated scanning probe microscopy (SPM) infrared system for 10-nanometer spatial resolution in chemical and materials property...
News - 7 Dec 2012
If nanoscience were television, we'd be in the 1950s. Although scientists can make and manipulate nanoscale objects with increasingly awesome control, they are limited to black-and-white imagery...
Article - 7 Mar 2013
In AFM, a sharp tip is held at close proximity with a sample using a force-based feedback loop.