by Jess Adamson | Oct 26, 2023 | Research
Obtaining carbon films deposited by physical vapor deposition that improve the mechanical and tribological properties of a film-substrate system depends on the energetic levels and the number of the ion species in the plasma of the deposition process. An effective way...
by Jess Adamson | Jul 4, 2023 | Research
Obtaining carbon films deposited by physical vapor deposition that improve the mechanical and tribological properties of a film-substrate system depends on the energetic levels and the number of the ion species in the plasma of the deposition process. An effective way...
by Jess Adamson | Jun 29, 2023 | Research
Obtaining carbon films deposited by physical vapor deposition that improve the mechanical and tribological properties of a film-substrate system depends on the energetic levels and the number of the ion species in the plasma of the deposition process. An effective way...
by Jess Adamson | May 3, 2023 | Research
Obtaining carbon films deposited by physical vapor deposition that improve the mechanical and tribological properties of a film-substrate system depends on the energetic levels and the number of the ion species in the plasma of the deposition process. An effective way...
by Jess Adamson | Apr 27, 2023 | Research
Obtaining carbon films deposited by physical vapor deposition that improve the mechanical and tribological properties of a film-substrate system depends on the energetic levels and the number of the ion species in the plasma of the deposition process. An effective way...
by Jess Adamson | Apr 20, 2023 | Research
In radiation detection, gaseous detectors have an important role in the characterization of incident radiation. Experiences, namely in X-ray spectrometry, X-ray astronomy, medical instrumentation and high energy physics use gaseous detectors, usually with a rare gas,...
