Read article 'Cooling experts head to Siberia'
Cooling experts head to Siberia
Beam-cooling results from the Muon Ionisation Cooling Experiment were shown at COOL'19.
Read article 'Cooling experts head to Siberia'
Read article 'Accelerating magnet technology'
Accelerating magnet technology
Superconducting magnet technology has fuelled some of the greatest discoveries in high-energy physics and is at the core of existing and next-generation circular particle accelerators, writes Luca Bot...
Read article 'Study comes full EuroCirCol'
Study comes full EuroCirCol
The meeting marked the final event of the Horizon 2020 project to produce a conceptual design study for a 100 TeV circular hadron collider.
Read article 'The greatest lepton collider'
The greatest lepton collider
LEP was the highest energy e+e– collider ever built, with levels of precision that remain unsurpassed in accelerator physics. Former CERN director of accelerators Steve Myers tells LEP’s story fro...
Read article 'Tunnelling for physics'
Tunnelling for physics
John Osborne, Alexandra Tudora and Ben Swatton survey the geological, environmental and technical constraints of a post-LHC collider.
Read article 'Dipole marks path to future collider'
Dipole marks path to future collider
Researchers in the US have demonstrated an advanced accelerator dipole magnet with a field of 14.1 T.
Read article 'Tricky component? Use 3D printing…'
Tricky component? Use 3D printing…
Embedded radio-frequency (RF) cavities such as those featured in spiral-shaped cooling channels are one example.
Read article 'FuSuMaTech initiative levels up'
FuSuMaTech initiative levels up
Projects include new designs for MRI gradient coils, the design of 14 and 16 T MRI magnets, and a conceptual design for new mammography magnets.
Read article 'Accelerator community comes together in Melbourne'
Accelerator community comes together in Melbourne
The scientific programme was bookended by local Australian-grown talent.
Read article 'Niobium-tin cavities for smaller accelerators'
Niobium-tin cavities for smaller accelerators
High-frequency superconducting radio-frequency cavities made from niobium–tin alloy are more efficient than conventional niobium designs.
