15 mA Hˉ Ion Source, Turnkey System
- Model #: F.H-15.30-SYS
- Last modification: Nov/4/2019
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TRIUMF-Licensed Volume Cusp Ion Source System
D-Pace offers a complete turnkey ion source system including the ion source, software and controls, power supplies, vacuum pumps and instrumentation, high voltage subsystems, and access control. Beamlines, slits, emittance scanners, Faraday cups, collimators, and mass spectrometers can also be incorporated. This system can be operated standalone, but the PLC also integrates with higher level control systems through Ethernet controls.
- Maximum Hˉ current >15 mA DC in 20 – 30 keV energy range
- Low maintenance with long filament lifetime (> 5250 mA∙hours)
- Negligible lens wear due to the optimized lens ion-optics, and low emittance
- Instrumentation options include Faraday cup, emittance scanner, beamlines, beam profiler and mass spectrometer
- Completely customizable
- TRIUMF-licensed technology1
Enquire about other negative and positive ion beams, and our RF-powered ion sources
- Technology licensed from TRIUMF for world-wide distribution.
The F.H-15.30.SYS Filament Ion Source system is a complete, turnkey ion source system including:
- Ion source & Vacuum box
- Vacuum system & gauges
- Power supplies, PLC controls & software
- User interface & Ethernet-based remote controls
- Low voltage and high voltage racks
- 40kV isolation transformer
- Interlocks and HV grounding system
- Personnel access control interlocks
- Water flow gauges and interlocks
- Mass flow controller for feed gasses
- Optional high-voltage Faraday cage
- Optional water de-ionization system
- Optional sliding Faraday cup
- Optional fiber optic beam profile monitor
- Optional TRIUMF-licensed emittance scanner
- Optional 1:500 mass spectrometer with slits
- 2017 - The extraction of negative carbon ions from a volume cusp ion source
2014 - A New Ion Source Test Facility for Negative Ion Beams
2016 - A Negative Ion Source Test Facility
2016 - The Production of Negative Carbon Ions with a Volume Cusp Ion Source
2016 - The Extraction of Negative Carbon Ions from a Volume Cusp Ion Source
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