Add to ORKGThe Brookhaven National Laboratory Neutral Beam Group has constructed a large source test stand for testing of the various source modules under development. The first objective of the BNL program is to develop a source module capable of delivering 10A of H/sup -/(D/sup -/) at 25 kV operating in the steady state mode with satisfactory gas and power efficiency. The large source test stand contains gas supply and vacuum pumping systems, source cooling systems, magnet power supplies and magnet cooling systems, two arc power supplies rated at 25 kW and 50 kW, a large battery driven power supply and an extractor electrode power supply. Figure 1 is a front view of the vacuum vessel showing the control racks with the 36'' vacuum valves and refriger...
The rationale behind the ITUR project (Basque word for “source”) is to perform a comparison between ...
One of the most challenging aspects of ion beam driven inertial fusion energy is the reliable and ef...
The ion source for the 1 MW Spallation Neutron Source (SNS) is required to provide 35 mA of H- beam ...
Negative hydrogen ion sources have been developed at Brookhaven National Laboratory for several year...
This paper is a report on H/sup -/ ion source development at BNL over the past ten years, with most ...
A magnetron H/sup -/ source with a grooved cathode has been in operation at the BNL Linac for over 1...
This paper describes the present design and future capability of the high-voltage test stand for neu...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
As part of the on-going beam-current upgrade in the Proton Storage Ring (PSR) at the Los Alamos Neut...
Recent efforts in controlled fusion experiments have indicated the need for large neutral-beam sourc...
This paper summarizes the effort to improve the operation of the approx. 1 A surface-production H/su...
The development of a multicusp surface-production H/sup -/ ion source (Berkeley concept) designed sp...
As part of a new, compact heavy ion injector for AGS/RHIC complex at Brookhaven National Laboratory ...
A baseline H{sup -} ion source and low energy beam transport system (LEBT) have been identified for ...
The 150 kV test stand at BNL is being used to investigate the extraction, acceleration and transport...
The rationale behind the ITUR project (Basque word for “source”) is to perform a comparison between ...
One of the most challenging aspects of ion beam driven inertial fusion energy is the reliable and ef...
The ion source for the 1 MW Spallation Neutron Source (SNS) is required to provide 35 mA of H- beam ...
Negative hydrogen ion sources have been developed at Brookhaven National Laboratory for several year...
This paper is a report on H/sup -/ ion source development at BNL over the past ten years, with most ...
A magnetron H/sup -/ source with a grooved cathode has been in operation at the BNL Linac for over 1...
This paper describes the present design and future capability of the high-voltage test stand for neu...
The long-term objective of the BNL Neutral Beam Development Group is to design and test a neutral be...
As part of the on-going beam-current upgrade in the Proton Storage Ring (PSR) at the Los Alamos Neut...
Recent efforts in controlled fusion experiments have indicated the need for large neutral-beam sourc...
This paper summarizes the effort to improve the operation of the approx. 1 A surface-production H/su...
The development of a multicusp surface-production H/sup -/ ion source (Berkeley concept) designed sp...
As part of a new, compact heavy ion injector for AGS/RHIC complex at Brookhaven National Laboratory ...
A baseline H{sup -} ion source and low energy beam transport system (LEBT) have been identified for ...
The 150 kV test stand at BNL is being used to investigate the extraction, acceleration and transport...
The rationale behind the ITUR project (Basque word for “source”) is to perform a comparison between ...
One of the most challenging aspects of ion beam driven inertial fusion energy is the reliable and ef...
The ion source for the 1 MW Spallation Neutron Source (SNS) is required to provide 35 mA of H- beam ...