Add to ORKGThe cooling action of a buffer gas on ions contained within it can be used to cool an ion beam, thereby greatly improving its emittance and energy spread. It can also be used to greatly enhance the collection of an ion beam in an electromagnetic trap. The basic principles will be introduced in the context of a prototype system for such a beam cooler. (Accepted for publication in Nucl. Instrum. Methods A
We apply novel bunch forms for efficient laser cooling of fast stored ion beams at the Heidelberg Te...
Proposed RIKEN Radioactive Isotope Beam Factory [1] is aimed to be used for different kind of collis...
he ability to prepare radioactive beams for experiments in nuclear structure has seen important deve...
In rare isotope accelerator facilities, an RFQ cooler is often used to manipulate ions. The RFQ cool...
Beam cooling methods developed for the accumulation of antiprotons are being employed to assist in t...
Ion beam properties are often critical to experiments with rare isotopes. The ability to cool transv...
Three methods to cool stored ion beams have been achieved experimentally. These are electron, stocha...
ABSTRACT Beam coollng methods developed for the accumulation of antiprotons are being employed to as...
NH radicals from a molecular beam are cooled using a novel beam-loaded buffer gas method. The radica...
We have investigated an extension of the buffer gas cooling technique to a non-neutral buffer gas. T...
A linear radio frequency quadrupole has been built for the transport, cooling, and bunching of radio...
We have investigated an extension of the buffer gas cooling technique to a non-neutral buffer gas. T...
Cooling and acceleration of ions by lasers has gained increasing attention over the last years. The ...
[[abstract]]Simulation of the collisional cooling effect using binary and ternary buffer gas mixture...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
We apply novel bunch forms for efficient laser cooling of fast stored ion beams at the Heidelberg Te...
Proposed RIKEN Radioactive Isotope Beam Factory [1] is aimed to be used for different kind of collis...
he ability to prepare radioactive beams for experiments in nuclear structure has seen important deve...
In rare isotope accelerator facilities, an RFQ cooler is often used to manipulate ions. The RFQ cool...
Beam cooling methods developed for the accumulation of antiprotons are being employed to assist in t...
Ion beam properties are often critical to experiments with rare isotopes. The ability to cool transv...
Three methods to cool stored ion beams have been achieved experimentally. These are electron, stocha...
ABSTRACT Beam coollng methods developed for the accumulation of antiprotons are being employed to as...
NH radicals from a molecular beam are cooled using a novel beam-loaded buffer gas method. The radica...
We have investigated an extension of the buffer gas cooling technique to a non-neutral buffer gas. T...
A linear radio frequency quadrupole has been built for the transport, cooling, and bunching of radio...
We have investigated an extension of the buffer gas cooling technique to a non-neutral buffer gas. T...
Cooling and acceleration of ions by lasers has gained increasing attention over the last years. The ...
[[abstract]]Simulation of the collisional cooling effect using binary and ternary buffer gas mixture...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
We apply novel bunch forms for efficient laser cooling of fast stored ion beams at the Heidelberg Te...
Proposed RIKEN Radioactive Isotope Beam Factory [1] is aimed to be used for different kind of collis...
he ability to prepare radioactive beams for experiments in nuclear structure has seen important deve...