World Leader
in developing nanotube based multi-beam X-ray (MBX) tubes
We do not follow. We revolutionize.
Techniques of X-ray sources have remained unchanged. Not anymore.
VEC Imaging is changing the way we look at nanotubes compared to CNTs. With innovative processes and materials we have addressed the numerous issues with todays current CNT standards and have designed an integrated system complete with NT based X-ray tube and associated Control and Power Electronics.
We are leading the way from two dimensional to 3D-Tomosynthesis and full CT, on a dynamic scale.
Medical Applications
Find out more about our medical applications.
Security Applications
Find out more about our security applications.
Industrial Applications
Find out more about our industrial applications.
High Frequency, High Voltage Components
Find out more about our high frequency, high voltage components.
Nanotube technology with high speed and quality.
Our revolutionary (MBX) tube presents unprecedented scanning speed and significantly improved image quality.
It has a wide range of applications from medical imaging to security screening.
The VEC Imaging nanotube uses a nanotube-based, electron field emission emitter (cathode) instead of the traditional thermionic emitter (W filament). This new nanotube emitter is a cold emitter that emits electrons at room temperature when driven by an electric field (voltage). It is this nanotube cold emitter technology that finally makes it possible to pack tens or even hundreds of emitters inside a vacuum enclosure without any issue of thermal breakdown.
Cold Cathode
- Field emission: local electric field strength high enough to extract electrons from emitters
- 25 C
- 2 conductors (C, G)
- No thermal risks
- No inherent limit on packing density
Traditional Gridded Cathode
- Thermionic emission: heat up tungsten filament to release electrons
- 2400 C
- 3 conductors (C, F, G)
- Cathode thermal risk: CTE mismatch, evaporation, leakage current, etc.
- Limited packing density for distributed source
Cold Cathode |
Traditional Gridded Cathode |
| Field emission: local electric field strength high enough to extract electrons from emitters | Thermionic emission: heat up tungsten filament to release electrons |
| 25 C | 2400 C |
| 2 conductors (C, G) | 3 conductors (C, F, G) |
| No thermal risks | Cathode thermal risk: CTE mismatch, evaporation, leakage current, etc. |
| No inherent limit on packing density | Limited packing density for distributed source |
More about our nanotube technology.
Our latest news.
Ready to improve healthcare and save lives? We want to hear from you! 💙
We are looking for a "Overall Project Manager of Engineering for international projects supporting medical applications". More information ➡️ https://bit.ly/2YBiflu
2020 ECR conference in Vienna cancelled
Due to the COVID-19 outbreak, the 2020 ECR conference in Vienna was unfortunately cancelled.For updated news and information on VEC Imaging please visit us on Facebook and Instagram. You can also reach us directly at info@vecimaging.com. We hope you and your loved...
RSNA 2020 COVID-19 Update
At this time, the RSNA organization is proceeding with planning for RSNA 2020 to be held November 29-December 4, at McCormick Place in Chicago. They are optimistic the COVID-19 outbreak will subside prior to RSNA 2020 however, they will continue to monitor the...