PAA_Research

SolarPanel A Irradiation on Jack

Apparatus

Running conditions

Irradiated on Jack by placing samples just above the Radiator as shown in the picture.

Beam parameters: Irradiation Date : 5/23/18

Start Time: 09:07:30

Stop Time: 11:07:30

[math]T_{Irradiation} = 120 min [/math]

Rep Rate=300 Hz

I = 98 mA

Pulse Width = 10 usec

E = 38 MeV

The solar panel current output dropped 1 mA per hour during irradiation. The cove was too dark to produce a signal from ambient light. The observed signal was completely due to the electron beam.

Photonuclear cross section for Tungsten

The cross section for photon knockout of a neutron from several Tungsten Isotopes is given in the article below File:NucTech Volume 168 2009.pdf

and the figure below

File:GammaNOnW 061918.png

Neutron Energy Spectrum

A simulation of 40 MeV electrons on thick Tungsten produces the Neutron energy spectrum below, overlay with the U-235 fission spectrum

File:NeutronEnergySpectFrom40MeVElectronsOnTungsten 061918.png

neutron Flux precitions

Radiation Damage Study of Materials The modified neutron source capable of producing 1014 n/cm2s, will generate ~2 DPA/year in steels (HT9, 304L, MA956). To achieve DPA levels of interest (>0.1 DPA at <400 °C) it would take about 20 days of neutron irradiation.

In File name:10uC_Cs_Mn_SolarPan_DetD_55.5cm_002.lst

Measurements started at 14:45:38, 2:38:08 (158 min, 9488 sec) after irradiation ended,

Add 9488 seconds to time below to get time since irradiation

Check out Solar panel channels

root [24] MPA->Draw("evt.Chan>>(496,0,496)","evt.Sec> 2560 && evt.Sec<2800 && evt.Chan >306 && evt.Chan < 311");

root [25] MPA->Draw("evt.Chan>>(496,0,496)","evt.Sec> 1020 && evt.Sec<1260 && evt.Chan >306 && evt.Chan < 311");

Calibration

Energy (keV) = (0.065 +/- 1.34) + Channel*(0.490287 +/- 0.001174)

MPA->Draw("evt.Chan*(0.490) >>(6096,0,6096)","evt.Sec > 690 && evt.Sec < 1000");

Solar Panel Lines of interest

491, 528, 552.5, 847 , 1097 , 1293, 1303, 1810, 1997

In File name:10uC_Cs_Mn_SolarPan_DetD_55.5cm_003.lst

The measurement below started at 16:24:09, 4:16:39 after irradiation ended

Add 15399 seconds to time below to get time since irradiation

Ended measurements at (9:34 am Thursday, 5/24/18)

[math]{55 \atop 25\; }Mn (n,\gamma){56 \atop 25\; }Mn[/math]

[math]T_{1/2} = 2.579 hr[/math]

Reference for Mn half life of 2.5785 hrs

https://journals.aps.org/prl/pdf/10.1103/PhysRevLett.60.2246

Rate Estimates

Activation Equations

[math]R=N \sigma \phi[/math]

R = Activations /cm^3/s

N = # atoms / cm^3

\sigma = Crossection (cm^2)

\phi = nuetron flux density ( neutrons/cm^2/s)

Observed Activity

Mass of Sample = 1.6992 g

Surface area 1 cm^2

30 cm from radiator

After irradiation the count rate from the Manganese witness foil was 250 Hz

Neutron capture cross section for manganese

https://journals.aps.org/prc/pdf/10.1103/PhysRevC.18.2079

Misnamed article below

File:PHYSRevL60 2246.pdf

PAA_Research