chemical physics of discharges - Argonne National Laboratory
chemical physics of discharges - Argonne National Laboratory chemical physics of discharges - Argonne National Laboratory
[NO] x IO-" (molecules/cm3) . 18- 4 52 5 22-48 . . . --- Fig. 12 The dependence of emission intensities on NO concentration: m - the NO B bands, 0 - the NO2 continuum -- both excited in the downstream observation bulb; 0 - the 0,3 NO y band, A - the 0.6 NO f3 band; and 0- the 0,5 Vegard-Kaplan band excited in the Tessla discharge bulb. [NO]x IO-" (rnolecules/cm3) 20 22 24 26 28 30 32 34 36 I500 PRESSURE 1.8 mmHg ". 0 O- A 0 " 5 H 2, Fig. 13 0 SLOPE = I. I 10-9~m3 7 21 35 49 63 77 91 105 119 RELATIVE RESPONSE YELLOW PHOTOTUBE (NOZcontinuum) - 78-452522-36 The relative photomultiplier response to the NO y (0,3) and N2(0,5) Vegard- Kaplan bands as a function of both [NO] and the response of the yellow photomultiplier.
Fig. 14 IO 8 6 4F [NO] x IO-" (mole c u I es /c m3) 14 16 18 20 22 24 26 I SLOPE = I x 10-11cni3 0 IO 30 50 70 90 110 130 RE L AT I V E RES PO N S E YE L LOW P H OTO T U B E ( N O2 con t i n u u m ) T8-452522-51 The relative photomultiplier response to the NO y (3,O) and N2(1,10) Vegard-Kaplan bands as a function of both [NO] and the response of the yellow photomultiplier.
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[NO] x IO-" (molecules/cm3) .<br />
18- 4 52 5 22-48<br />
. . .<br />
---<br />
Fig. 12 The dependence <strong>of</strong> emission intensities on NO concentration: m - the NO B<br />
bands, 0 - the NO2 continuum -- both excited in the downstream observation<br />
bulb; 0 - the 0,3 NO y band, A - the 0.6 NO f3 band; and 0- the 0,5<br />
Vegard-Kaplan band excited in the Tessla discharge bulb.<br />
[NO]x IO-" (rnolecules/cm3)<br />
20 22 24 26 28 30 32 34 36<br />
I500<br />
PRESSURE 1.8 mmHg<br />
".<br />
0 O-<br />
A 0<br />
" 5<br />
H<br />
2,<br />
Fig. 13<br />
0<br />
SLOPE = I. I 10-9~m3<br />
7 21 35 49 63 77 91 105 119<br />
RELATIVE RESPONSE YELLOW PHOTOTUBE (NOZcontinuum)<br />
-<br />
78-452522-36<br />
The relative photomultiplier response to the NO y (0,3) and N2(0,5) Vegard-<br />
Kaplan bands as a function <strong>of</strong> both [NO] and the response <strong>of</strong> the yellow<br />
photomultiplier.