1000 K(ex)1 
1000 K(Fx)1 
80 
PROPELLER 4661 
y =20 DEG 
NO SCREEN 
70 
. 4a 
“s A Experiment 
Kerwin & Lee “sR e 44 A AAA 
50; (PUF2) PSN a é 
> 
McCarthy (QUASI) 
40-- 
ie, 
30 + (2 —7 Tsakonas ot al (PPEXACT) 4 
a 
<a 
a 
Za 
20 pe 1 
10- 2 
Design J 
0 [cleanin eam ae 
0.4 0.6 0.8 1.0 122: 1.4 1.6 1.8 2.0 
J= V (1-wyyq)/nD 
35 
fo) PROPELLER 4710 
vy = 10DEG 
NO SCREEN 
30 S| 
O° 
25 
° 
Experiment 
> ° 
20 fe} 4 
°g0 8 9900 
McCarthy (QUASI) aie 
tS Kerwin (PUF2IS) 4 
a —>= 
ZG. SS 
Tsakonas et al 
10 -- (PPEXACT) Kerwin & Lea =| 
(PUF2) 
5 ce J 
| 
| 
| 
0 
0.4 0.6 0.8 1.0 1.2 14 1.6 18 
J = V (1-wypy)/nd 
1000 K(Fy)4 
1000 K(F<)4 
140 
120 
100 
PROPELLER 4661 
y = 30 DEG | 
Kerwin (PUF2IS) NO SCREEN 
ie) 
QO Experiment = 
Kerwin & Lee > 
(PUF2) = 
= 
ss 
we McCarthy (QUASI) 
60 
—_— 
Tsakonas et al (PPE XACT) 
20 
1.4 1.6 
1.0 
J = V (1-4) /nD 
0.4 0.6 0.8 
70 
PROPELLER 4710 
4 v = 20 DEG 
A NO SCREEN 
Experiment | 
50 
a 
4a 
A 4 
BS GO 
Kerwin (PUF2IS) 
w 
So 
Kerwin & Lea 
(PUF2) 
7 Tsakonas et al McCarthy, 
20 (PPEXACT) 
10 
1.4 
0.8 1.0 1.2 
J= V (1-wypy)/nD 
0 
0.4 0.6 
Fig. 9 — (Continued) 
i) 
