Add to ORKGRecent advances in focused ion beam technology have enabled high-resolution, direct-write nanofabrication using light ions. Studies with light ions to date have, however, focused on milling of materials where sub-surface ion beam damage does not inhibit device performance. Here we report on direct-write milling of single crystal diamond using a focused beam of oxygen ions. Material quality is assessed by Raman and luminescence analysis, and reveals that the damage layer generated by oxygen ions can be removed by nonintrusive post-processing methods such as localised electron beam induced chemical etching
[[abstract]]A focused Ga-ion beam is used to conduct lithography on a diamond (100) surface with the...
© 2014 IEEE. Controlled fabrication of semiconductor nanostructures is a prerequisite step in the en...
Nanodiamonds, which are nano-sized diamond crystals, have potential biomedical applications due to t...
Recent advances in focused ion beam technology have enabled high-resolution, maskless nanofabricatio...
In this work, transmission electron microscope (TEM) measurements and molecular dynamic (MD) simulat...
© 2013 Dr. Barbara Anne FairchildDiamond is a material with extreme physical properties unlike any o...
The Focused Ion Beam (FIB) milling of single crystal diamond was investigated and the beam drift and...
We performed nanomachining combined with photoluminescence spectroscopy to understand the depth dist...
In recent years, micro/nanoscale diamond cutting tools shaped by focused ion beam (FIB) has been dev...
We investigate the possibilities to realize light extraction from single crystal diamond (SCD) nanop...
Creation of fluorescent defects at desired position and structures will play an important role for d...
AbstractIn this paper an overview is given on recent results obtained in the framework of an Italian...
Focused Ion Beam (FIB) is one of the important machining techniques to fabricate diamond sensors/det...
Controlled fabrication of semiconductor nanostructures is an essential step in engineering of high p...
© 2010 Virginia DrummThe remarkable attributes of diamond make it a promising material for the imple...
[[abstract]]A focused Ga-ion beam is used to conduct lithography on a diamond (100) surface with the...
© 2014 IEEE. Controlled fabrication of semiconductor nanostructures is a prerequisite step in the en...
Nanodiamonds, which are nano-sized diamond crystals, have potential biomedical applications due to t...
Recent advances in focused ion beam technology have enabled high-resolution, maskless nanofabricatio...
In this work, transmission electron microscope (TEM) measurements and molecular dynamic (MD) simulat...
© 2013 Dr. Barbara Anne FairchildDiamond is a material with extreme physical properties unlike any o...
The Focused Ion Beam (FIB) milling of single crystal diamond was investigated and the beam drift and...
We performed nanomachining combined with photoluminescence spectroscopy to understand the depth dist...
In recent years, micro/nanoscale diamond cutting tools shaped by focused ion beam (FIB) has been dev...
We investigate the possibilities to realize light extraction from single crystal diamond (SCD) nanop...
Creation of fluorescent defects at desired position and structures will play an important role for d...
AbstractIn this paper an overview is given on recent results obtained in the framework of an Italian...
Focused Ion Beam (FIB) is one of the important machining techniques to fabricate diamond sensors/det...
Controlled fabrication of semiconductor nanostructures is an essential step in engineering of high p...
© 2010 Virginia DrummThe remarkable attributes of diamond make it a promising material for the imple...
[[abstract]]A focused Ga-ion beam is used to conduct lithography on a diamond (100) surface with the...
© 2014 IEEE. Controlled fabrication of semiconductor nanostructures is a prerequisite step in the en...
Nanodiamonds, which are nano-sized diamond crystals, have potential biomedical applications due to t...