+100
te
ae
SuSE Oreweles» S080 FF
mace
same ome Fart
a
the
Ao
we
tty
Mshed wanetes eeee rt
© Suvptemontary scwlee coevestng engie suptended te diotuace for
Dene surges of sreles @-ametor
co
.
ah tent Gematen S080 rT
Neos
roo
ee
wee
ere
oO
%
$0 45 60 97S 86 105 HO 1355 150 165) t80
OMRON TAL BE UTED He Eh ei, RAN SRL neSE
.
é
|
~-ePPROain + ROM 180"
|
o
6
W
45
7
60
>
-
TT
7S
8
1S
120
154
HO
.
66
“pro
TET
—— 108 MANGE CrameEn
—— HIGM AANGE CHAMBER
.
OF
MO
whe
0
al
eareting angie subdlended te diotence
fer Dose sucgen of stated Gemates
e
ee tunes mentee scene Ft
we
een
tatee
ees
OO TO MLE SHOU mE AY Ewes in, BANK Sd ha EE OF
Shs
wit >
ener Mangtan soee #1
ae)
aoe tee
wma. ee one
ite Suaee Grewgren. sees #1
0300
0300
0600
FROM
Co™®)
Figure 3.2 Relative response of
secondary-GITR detector for an
enveloping base surge. (Source:
2A 1598
Figure 3.1 Relative response of
ASEL-GITR detector for an enveloping base surge. (Source:
120 kev X-ray.)
avtie
‘
‘
4
/
!
CHAMBER
TT apwagain Faoe 180°
mo
aPORO4EH
90°
Li i 4.
APPROACH FROM
0900
4oo0
wateeg mw reget
.
Seapiemesiors srolse Converting aagie sublensed fe dtlence for
bese wwrgan 6 eled hegnis
meg
"Spfae—*abatetotes sumed marent st200 #5
Sumed werent. 1990 FF
“gins ta
oon
eyaaet funse sdient. oo ot
Saateh sunee ue
Go
wf
fo 44
60S
80 OS HO 198
WE AU ARE TE ODL Re PE COPING MASE Sus
Low ASGEe CHameER
MiG RANGE
standard-GITR detector for an
enveloping base surge. (Source:
Co")
Figure 3.3 Relative response of
Ff HIE
0300
0300
4
i
oro
2
0400
MANGE
= HIGH RANGE CHAMOER
—=- (OW
Sso8esiu
0700
+000
hoe
1200
Wwoetda
80
¥O