The MetalJet E1+ is designed for high-throughput, 100% duty-cycle operation with up to once-per-year preventive maintenance cycles. This eliminates the need for frequent filament changes as required by traditional tubes.
Excillum
Excillum - Model MetalJet E1+ 160 kV -Kilowatt Microfocus Performance With Submicron Stability
FromExcillum
The new Excillum MetalJet E1+ delivers kilowatt microfocus performance with submicron stability. At 1000 watts, it delivers 17 times more X-ray flux compared to a 30 W conventional tungsten-solid-anode microfocus source with the same 30 µm spot size. Designed for high-throughput, 100% duty-cycle operation with up to once-per-year preventive maintenance cycles, it maintains a positional stability of below 1 µm during continuous long-term operation.Most popular related searches
Built for 24/7 continuous performance
Sub-µm positional stability
Although running at a high thermal load of 1000 W, the MetalJet E1+ maintains a positional stability of below 1 µm during continuous long-term operation.
Unprecedented 24 keV indium Kα emission
For applications requiring focused or collimated high-energy monochromatic radiation, the MetalJet E1+ delivers unprecedented power into the 24 keV indium Kα emission lines. See e.g. the 1.3×1010 ph/s/mm2 example when combined with Montel-type focusing X-ray mirror.
- Extreme microfocus source power
- Superior spot quality
- Single (left or right) X-ray window or dual (left and right)
- Minimal maintenance
- User variable size and aspect ratio of spot
- LaB6 long-life cathode
- Very stable X-ray emission and spot position
- User-friendly Graphical User Interface
- Controlled through GUI or TCP/IP protocol
- Adjustable take-off angle
- No external cooling water requirement
- Operated remotely from any computer
Target material1: Liquid metal alloy
Min. focal spot size: < 10 μm
Target type: Liquid jet
Emission stability3: < 1%
Voltage: 30-160 kV
Position stability3: < 1 μm
Power2: 0-1000 W
Min. focus-object distance: 22.5mm
Max current: 6.25 mA
Beam angle: 20°