Add to ORKGFor the Neutrino Factory and Muon Collider Collaboration, BNL has considered solenoidal magnet systems of several types to capture pions generated by bombarding a mercury jet with multi-GeV protons. The magnet systems generate up to 20 T, uniform to 5% throughout a cylindrical volume 0.15 m in diameter and 0.6 m long. Axially downstream the field ramps gradually downward by a factor of sixteen, while the bore increases fourfold. The steady-state system needed for an accelerator has many superconducting coils and a radiation-resistant insert of mineral-insulated hollow conductor. Less costly, pulsed systems suffice to study pion capture and the effect of a magnetic field on a jet hit by a proton beam. BNL has explored three types of magnets,...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...
To achieve adequate luminosity in a muon collider it is necessary to produce and collect large numbe...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...
To capture pions the Neutrino Factory and Muon Collider Collaboration needs a field of {approx}20 T ...
The Target System of the Neutrino Factory is considerably more than the target for the primary proto...
We propose to perform a proof-of-principle demonstration of a target system based on a free mercury ...
We present a new racetrack coil magnet design, with an open midplane gap, that keeps decay particles...
A conceptual design is presented for a high power pion production target for neutrino factories and ...
The neutrino factory[1-3] consists of a target section where pions are produced and captured in a so...
We describe an experiment designed as a proof-ofprinciple test for a target system capable of conver...
The design of a new pulsed magnet system for the generation of intense electron beams is presented. ...
Present designs for a muon collider call for a copious source of muons: 5 × 10 14 µ/s distributed ov...
The ESSnuSB will produce a high intensity neutrino super beam based on the 3 ms long proton pulses a...
The ESSnuSB will produce a high intensity neutrino super beam based on the 3 ms long proton pulses a...
We present a new racetrack coil magnet design, with an open midplane gap, that keeps decay particles...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...
To achieve adequate luminosity in a muon collider it is necessary to produce and collect large numbe...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...
To capture pions the Neutrino Factory and Muon Collider Collaboration needs a field of {approx}20 T ...
The Target System of the Neutrino Factory is considerably more than the target for the primary proto...
We propose to perform a proof-of-principle demonstration of a target system based on a free mercury ...
We present a new racetrack coil magnet design, with an open midplane gap, that keeps decay particles...
A conceptual design is presented for a high power pion production target for neutrino factories and ...
The neutrino factory[1-3] consists of a target section where pions are produced and captured in a so...
We describe an experiment designed as a proof-ofprinciple test for a target system capable of conver...
The design of a new pulsed magnet system for the generation of intense electron beams is presented. ...
Present designs for a muon collider call for a copious source of muons: 5 × 10 14 µ/s distributed ov...
The ESSnuSB will produce a high intensity neutrino super beam based on the 3 ms long proton pulses a...
The ESSnuSB will produce a high intensity neutrino super beam based on the 3 ms long proton pulses a...
We present a new racetrack coil magnet design, with an open midplane gap, that keeps decay particles...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...
To achieve adequate luminosity in a muon collider it is necessary to produce and collect large numbe...
The European Spallation Sour e Neutrino Super-Beam project (ESSnuSB) plans to use the powerful proto...