Date post: | 16-Dec-2015 |
Category: |
Documents |
Upload: | alejandro-halden |
View: | 217 times |
Download: | 0 times |
Creating and Measuring Very Uniform Magnetic Fields
for a Polarized 3He Target
Mark Fassler, Tatsuya Katabuchi, and Thomas B. Clegg,
University of North Carolina at Chapel Hill and Triangle Universities Nuclear Laboratory (TUNL), Durham, NC, USA
and
John Nouls, Amersham Health, Research Triangle Park, NC, USA
University of North Carolina at Chapel Hill
Motivation
• Seek to measure spin-correlation observables in p+ 3He scattering at energies between 2 and 5 MeV.
• Need a polarized 3He target for such measurements.
• Need a very uniform magnetic field to maintain 3He polarization in the target.
• Experimental constraints dictated that a “Sine Theta” coil be used to create the magnetic field, and that this B-field should be uniform to better than 10-3 per centimeter.
Sine-Theta Coil - Concept• Variable surface current
– Current I sin
• Required field uniformity
• Mu-metal cylinder
– Enhances B-field
inside cylinder
– Shields internal region from external fields.
• Side apertures are possible
B
Mu-metal Shield
Current
Current0
Max
0
Blue: outwardRed: inward
Max
Current Direction
Sine-Theta Coil – B-Field Calculation
• Poisson/SuperfishLANL code used to calculate magnetic field from currents and magnetic properties
• Geometry Shielded infinite cylinder
• ResultsA 5 cm diam central region has
cmx
B
B
310
1
7.5 cm
24 current rods (3 mm
diam)
mu-metal (1 mm thick)
5 cm
Sine-Theta Coil – Design Details
12" (30 cm)
1/8" Copper Rods
Mu Metal Shield
3 1/8 " (8 cm)
Windows
• 24 Copper rods placed on Delrin cylinder.
• Six separate currents are regulated to 10-3.
• Coil is covered with a mu-metal shield with windows for emerging scattered particles.
Sine-Theta Coil – Realization
Delrin cut horizontally.
Mu-metal shield cut vertically.
Assembled coil with rods and current carrying wires.
Horizontal slot provided for scattered particles.
Setup for B-field Measurement
3-axis robot
3-axis Hall probe
Wired sine-theta coil in mount
• The robot moved the Hall probe
around inside the sine-theta coil. At
regular spacings on a 3D grid, a
computer with a 3D gaussmeter took measurements of
the 3D B-field.
• A typical scan produces
thousands of data points, each with 6 dimensions of data
– x,y,z, Bx, By, Bz
Visualizing the Data
• The red arrows inside the sine-theta “coil” are actual data taken during a scan with the robot. Each arrow is a vector indicating the magnitude and direction of the B-field at a point in space. The B-field varies by less than 1% throughout the volume of interest, so differences are not visible when plotted in this way. To analyze variations which are
important for the physics, we plot instead variations in the B-field.
Sine-Theta Coil – Measured B-Field
• Currents adjusted to provide Bx = 10 Gauss
• Scanned interior with a 3-axis Hall probe
• Found < 2 x 10-3/cm
Transverse-component midplane contour maps (in Gauss)BzBy
x
y
z
‘Flip Book’ of Cross Sections
• These 18 pages (included on the next page as a short mpeg movie) show a sequence of cross-sections of the B-field in the sine-theta coil down the z-axis from about center – 3.8 cm to center + 3.8 cm.
• The greatest irregularities are on the top and bottom. These are caused by joints between the two halves of the mu-metal. In particular, in the center along the top there is great irregularity along the z-axis, caused by holes in the mu-metal which provide clearance for the tubes for the 3He to enter and exit the cell.
• Along the left side on can see slight B-field irregularities cause by holes in the mu-metal which allow the scattered particles to escape.
Flip-Book Movie of B-field Inside Coil