1 / 12

Introduction to the MagLab DC Field Facility

Introduction to the MagLab DC Field Facility . Eric Palm – Director DC Field User Program Scott Hannahs – Director DC Field Instrumentation. Superconducting Magnets. SCM-1 18/20 T Top-loading dil frig 20mK – 1K SCM-2 18/20 T Top-loading He-3 or Top-loading VTI 0.3K – 300K

vilina
Download Presentation

Introduction to the MagLab DC Field Facility

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Introduction to the MagLab DC Field Facility Eric Palm – Director DC Field User Program Scott Hannahs – Director DC Field Instrumentation

  2. Superconducting Magnets • SCM-1 18/20 T Top-loading dil frig 20mK – 1K • SCM-2 18/20 T Top-loading He-3 orTop-loading VTI 0.3K – 300K • SCM-3 17.5 T Optical access magnetUnique access through magnet 24 Hr / day, 7 day / week operation

  3. Resistive Magnets Water Cooled – 2000 Gallons / min High Power – 20 MW ~40KA, 500V • 32 mm bore: 1 - 35 T, 1 - 33T • 50 mm bore: 2 - 31 T Modulation or gradient coil inserts • 195 mm bore: 20T • High homogeneity: 25 T 50mm bore • Med homogeneity: 29T 32mm bore • Coming soon: Split bore optical access 7-10.5 hours / shift, 4.5 shifts / week

  4. 45 T Hybrid Magnet11.5 T Superconducting Outsert

  5. 33.5 T Resistive Insert 74 kA 33 MW 45T Largest DC Magnetic Field in the World 8 hour shifts, 4.5 shifts / week MUST have prior data at lower fields Very competitive

  6. Measurements • Transport – resistivity, hall resistance, etc. • Magnetization – susceptibility, cantilever magnetometry • Heat Capacity • Thermal Dilation / Magnetostriction • Ultrasound / resonant ultrasound • High pressure – piston, diamond anvil cells, helium intensifier • NMR • Microwaves • Fourier Transform Infrared Measurements • Optics – spectroscopy, ultra fast…

  7. People • Scott Hannahs – Director DC Field Instrumentation • Alice Hobbs – DC Field Coordinator • Tim Murphy – Mr CryogenicsLeads DC Field Technicians JonathanBillings Glover Jones Scott Maier Bobby Pullum

  8. Control Room Operators Bryon Dalton Michael George Larry Gordon Joel Piotroski Angel San Martin Hybrid / Cryogenic Operators Tim DeGraff JohnPucci Bob Carrier Dan Freeman

  9. Machine Shop Vaughan Williams Andy Rubes Robert Schwartz James Maddox Dan McIntosh John Farrel Electronics Shop AndyPowell Lee Boninghausen Russell Wood

  10. Scientists Luis Balicas Eun Sang Choi Lloyd Engel JanJaroszynski PhilKuhns Steve McGill Ju-HyunPark Dragana Popovic ArneilReyes StanTozer DmitrySmirnov AlexeySuslov HaidongZhou

  11. Process • Magnet time through online proposals • 2 parts • Project – describes science does not get repeated – reviewed by external scientists • Experiment – describes measurement Duplicate for each requested week Reviewed and ranked by panel of in-house scientists • 3 calls for proposals per year • Next due date Mid July

  12. Energy Budget • Users given an energy / MWHr budget • Enough to run 31 hours – given 41 hours in the cell • Should run out of energy before you run out of time! • 1 MWHr roughly $120 • $24,000 to $70,000 for a week of time JUST FOR ELECTRICITY • Please use magnet time wisely • Power ~ B2

More Related