Etch Induction Time in CR-39 Detectors Etched in Na<SUB>2</SUB>CO<SUB>3</SUB> Mixed NaOH Solution

doi:10.1088/0256-307X/26/9/092901

Chin. Phys. Lett.

2009, Vol. 26

Issue (9): 092901 DOI: 10.1088/0256-307X/26/9/092901

NUCLEAR PHYSICS

Etch Induction Time in CR-39 Detectors Etched in Na₂CO₃ Mixed NaOH Solution

N. Ali^1,2, E. U. Khan³, K. Khan⁴

¹DPAM, PIEAS, P.O. Nilore, Islamabad, Pakistan²P.D, PINSTECH, P.O. Nilore, Islamabad, Pakistan³Department of Physics, CIIT, Islamabad, Pakistan⁴HPD, PINSTECH, P.O. Nilore, Islamabad, Pakistan

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N. Ali, E. U. Khan, K. Khan 2009 Chin. Phys. Lett. 26 092901

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Abstract Six different solutions of 6M NaOH, containing different amounts of Na₂CO₃ at 70°C were used for the revelation of latent damage trails in CR-39 plastic track detectors. These detectors were earlier exposed to fission fragments from ²⁵²Cf source for 30min in vacuum and were then etched in the respective solutions for different etching time intervals of 5-20min starting from 5min up to 160min. The etch induction time in each detector was obtained by extrapolating the intersection of resulting curves of track lengths and track diameters with the time axis.

Keywords: 29.40.Wk 34.50.Bw 87.66.Pm

Received: 15 April 2009 Published: 28 August 2009

PACS:	29.40.Wk	(Solid-state detectors)
	34.50.Bw	(Energy loss and stopping power)
	87.66.Pm

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https://cpl.iphy.ac.cn/10.1088/0256-307X/26/9/092901 OR https://cpl.iphy.ac.cn/Y2009/V26/I9/092901

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[1] Fleischer R L, Price P B and Walker R M 1975 NuclearTracks in Solids: Principles and Applications (Berkeley, CA:University of California)
[2] Ruddy F H, Knowles H B, Luckstead S C and Tripard G E 1977 Nucl. Instrum. Methods 147 22
[3] Grabez B, Vater P and Brandt R 1981 Nucl. Tracks 5 291
[4] Matiullah, Ahmad A, Khan G A, Manzoor S and Khan H A 1988 Nucl. Tracks Radiat. Meas. 15 137
[5] Khan H A, Manzoor S and Matiullah 1991 Nucl. TracksRadiat. Meas. 19 639
[6] Khan H A, Qureshi I E and Khan E U 2008 Radiat.Meas. 43 S571
[7] Qureshi A A, Khan H A, Tufail M and Matiullah 1991 Nucl. Tracks Radiat. Meas. 17 383
[8] Brandt R 1993 Radiat. Meas. 21 341
[9] Bashir A, Matiullah, Yang X and Gul M 1993 Nucl.Tracks Radiat. Meas. 22 647
[10] Cartwright B G, Shirk E K and Price P B 1978 Nucl.Instrum. Methods 153 457
[11] Durrani S A and Bull R K 1987 Solid State NuclearTrack Detection: Principles, Methods and Applications (Oxford:Pergamon)
[12] Abdul-Nabi A A and El-Akkad F A 2001 Radiat. Meas. 33 145
[13] Stejney J and Portwood T 1986 Nucl. Tracks 12121
[14] Khan E U et al 2005 Radiat. Meas. 40 299
[15] Charvat J and Spurny F 1988 Nucl. Tracks Radiat.Meas. 14 447
[16] Singh J, Singh S and Virk H S 1988 Nucl. TracksRadiat. Meas. 15 187
[17] Bhatia R K and Virk H S 1988 Indian J. Pure Appl.Phys. 26 428
[18] Ruddy F H, Knowles H B and Tripard G E 1976 Phys.Rev. Lett. 37 826
[19] Khan H A et al 1983 Phys. Rev. C 28 1630
[20] Bourdin J C et al 1987 Nucl. Instrum. Methods B 28 548
[21] Rana M A et al 2007 Radiat. Meas. 42 125
[22] Rana M A 2008 Nucl. Instrum. Methods B 266271
[23] Ho J P Y, Yip C W Y, Koo V S Y, Nikezic D and Yu K N 2002 Radiat. Meas. 35 571
[24] Bernaola O A, Mazzei R, Martin G S and Grasso J C 1988 Nucl. Tracks Radiat. Meas. 15 141

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