Difference between revisions of "JLAB Positron Source DOE Award DE-SC0002600"

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Revision as of 23:10, 22 July 2013

Award Info

8/15/09 - 8/14/2012

Funds Obligated: $381,509

Funds Requested: $411,509

Sponsored Project Proposal Number : 8-17

DOE Award Number : DE-SC0002600

Accounts set up on 10/14/09

Banner Index : RACL39 Account Numer : 684-143-40

Fund: X10165, Org code: 640000, Program : 040R0

Final Report

DOE Award #: DE-SC0002600

Project Title: The Development of a Positron Source for JLab at the IAC

Date: 8/1/13

Period covered: 8/15/09-8/14/2013 (Final Report)

Accomplishments

The performance of positron source using a quad triplet collection system has been measured using the support from this award.

Initial Positron production measurement

An initial set of positron production efficiency measurements were performed


Chips run-2008 setup.png CHIPS 5-08 8FC.jpg
The beam line used for an initial set of positron production measurements A picture of the HgPe detector entrance and Farraday cup.


Item Description
Tantalum Foil 6 mm thick 20 mm x 20 mm area
Tungsten Foil 2 mm thick 20 mm x 20 mm area
Phosphorus Flag 1 mil aluminum backing
Media:HpGe_Crystal_GEM-60195-Plus-P.pdf 81.3mm Diameter, 55.5mm Length
NaI detector
Run60 HpGe-NaI.gif PositronYield SweeperMagnet run60-61.gif
The observed photon energy distributions as measured by the HpGe (top) and NaI (bottom) detectors. There was no coincidence requirement using the two detectors. The HpGe photon energy distribution before and after a sweep magnet is used to deflect charged particles away from the conversion target.

2nd Generation positron source

Beamline Optimization

BeamLine Yim 10-14-10.png Positron Source HRRL beamline images 2.jpg
HRRL beamline for positron generation. A picture of the HRRL positron beam line.
HRRL emittance measurements

Images from the JAI camera were calibrated using the OTR target frame. An LED was used to illuminate the OTR aluminum frame that has a known inner diameter of 31.75~mm. Image processing software was used to inscribe a circle on the image to measure the circular OTR inner frame in units of pixels. The scaling factor can be obtained by dividing this length with the number of pixels observed. The result is a horizontal scaling factor of 0.04327~\pm~0.00016~mm/pixel and vertical scaling factor of 0.04204~\pm~0.00018~mm/pixel. Digital images from the JAI camera were extracted in a matrix format in order to take projections on both axes and perform a Gaussian fit. The observed image profiles were not well described by a single Gaussian distribution. The profiles may be described using a Lorentzian distribution, however, the rms of the Lorentzian function is not defined. The super Gaussian distribution seems to be the best option~[11], because rms values may be directly extracted.

Fig.~\ref{par-fit} shows the square of the rms (\sigma^2_{s}) vs k_1L for x (horizontal) and y (vertical) beam projections along with the parabolic fits using Eq.~\ref{par_fit}. The emittances and Twiss parameters from these fits are summarized in Table~\ref{results}.


Fig. Square of rms values and parabolic fittings. .
Fig. Square of rms values and parabolic fittings. .
Parameter Unit Value
projected emittance [math]\epsilon_x[/math] [math]\mu[/math]m 0.37 [math]\pm[/math] 0.02
projected emittance [math]\epsilon_y[/math] [math]\mu[/math]m 0.30 [math]\pm[/math] 0.04
[math]\beta_x[/math]-function m 1.40 [math]\pm[/math] 0.06
[math]\beta_y[/math]-function m 1.17 [math]\pm[/math] 0.13
[math]\alpha_x[/math]-function rad 0.97 [math]\pm[/math] 0.06
[math]\alpha_y[/math]-function rad 0.24 [math]\pm[/math] 0.07
micro-pulse charge pC 11
micro-pulse length ps 35
energy of the beam E MeV 15 [math]\pm[/math] 1.6
relative energy spread [math]\Delta E/E[/math] % 10.4
HRRL energy spread

Energy scan was done to measure the energy profile of HRRL at nominal 12 MeV. A Faraday cup was placed at the end of the 45 degree beamline to measure the electron beam current bent by the first dipole. Dipole coil current were changed by 1 A increment and the Faraday cup currents were recorded. The scan results with corresponding beam energies are shown in the table below. The relation between dipole current and beam energy is given in the appendix.

The energy distribution of HRRL can be described by two skewed Gaussian fit overlapping.


Hrrl 17May2012 12MeV En Spread2.png

The beam energy spread does not follow Gaussian distribution, but the overlapping of two skewed Gaussian found to be the best description of beam energy profile Media:Beam_Distributions_Beyond_RMS.pdf.


parameter Notation First Gaussian Second Gaussian
amplitude A 2.13894 10.88318
mean [math]\mu[/math] 12.07181 12.32332
sigma left [math]\sigma_L[/math] 4.46986 0.69709
sigma right [math]\sigma_R[/math] 1.20046 0.45170

Positron converter target

HRRL Beam Rot Tar Sys Mot16.png
A picture of the rotating target motor with cooling lines.

Positron Production Performance

SAINT-GOBAIN 3M33.png IAC NaI Detectors and Parts 7.png Hrrl pos det calb det3 r2637 r2636.png
A drawing fo the NaI detectors used to measure 511 keV photons from the annihlation of positrons by T2. A picture of detectors along with modified bases. A calibrated energy distribution using a Co-60 and Na-22 button source.


Sadiq Thesis Figs 2p7.png

run in: 3735 Sadiq Thesis Figs 4p1 1.png Sadiq Thesis Figs 4p1 2.png
Singles spectra for each detector with and without the annihilation target inserted

This a normalized spectrum (no background subtraction).

run in: 3735 Sadiq Thesis Figs 4p1 3.png Sadiq Thesis Figs 4p1 4.png
Coincidence spectra.


positron rate: [math] e^+_{rate} = 0.259 \pm 0.016 ~ Hz[/math].


HRRL Jul2012 pos to ele ratio 1.png

Things not accomplished

No Positron workshop but rather a PePPO collaboration meeting

Used OTR to measure emmittance.

Positron current was too low for a FC measurement