Corrected and calibrated I<sub>2</sub> absorption model at frequency-doubled Nd:YAG laser wavelengths

Joseph N. Forkey; Walter R. Lempert; Richard B. Miles

doi:10.1364/AO.36.006729

Applied Optics
Vol. 36,
Issue 27,
pp. 6729-6738
(1997)
•https://doi.org/10.1364/AO.36.006729

Corrected and calibrated I₂ absorption model at frequency-doubled Nd:YAG laser wavelengths

Joseph N. Forkey, Walter R. Lempert, and Richard B. Miles

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Joseph N. Forkey, Walter R. Lempert, and Richard B. Miles, "Corrected and calibrated I₂ absorption model at frequency-doubled Nd:YAG laser wavelengths," Appl. Opt. 36, 6729-6738 (1997)

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Abstract

We present a computer model for accurately predicting absorption profiles for molecular iodine cells over the tuning range of frequency-doubled Nd:YAG lasers. The model is compared with experimental data for a number of different cell conditions. This model is intended for use in the design and optimization of absorption filters and for data analysis in applications in which the accuracy of the measurement is related closely to the accuracy with which the filter profile is known.

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Line Number in Fig. 3	Line Number in Ref. 13	Line Assignments (Major Transitions Only)
1	1106	P119(35,0)
2	1107	R86(33,0)/R44(39,2)
3	1108	R106(34,0)
4		P22(43,3)/P147(50,2)
5		R118(44,2)/R24(43,3)
6		P97(42,2)
7		P84(41,2)/R99(42,2)
8		P67(40,2)
9		P181(43,0)
10	1109	R134(36,0)/P83(33,0)
11		R92(47,3)
12		R70(45,3)
13		R86(41,2)
14		P135(47,2)
15		R69(40,2)/P41(39,2)/R141(48,2)
16	1110	R56(32,0)
17	1111	P159(39,0)/P103(34,0)/P53(32,0)
18		P51(44,3)/R112(50,3)
19		R125(45,2)
20		R161(39,0)/R43(39,2)
21		R82(46,3)
22	1112	P142(37,0)
23		R109(43,2)

Side Arm Temperature (°C)	Cell Pressure (Torr)	Optical Depth [-ln(minimum transmission)] (Predicted Value Based on Model)
Side Arm Temperature (°C)	Cell Pressure (Torr)	Line 1	Line 2	Line 3	Line 10	Line 16	Line 17
30	0.47	3.1	5.8	3.6	7.0	6.9	12.4
		(3.1)	(6.1)	(3.7)	(7.5)	(7.5)	(13.6)
35	0.70	4.7	8.8	5.4	10.8	10.2	–
		(4.7)	(9.1)	(5.5)	(11.2)	(11.2)	(20.3)
40	1.03	6.8	12.8	7.9	14.9	14.9	–
		(6.9)	(13.3)	(8.0)	(16.4)	(16.5)	(29.8)
45	1.49	9.7	–	10.9	–	–	–
		(10.0)	(19.3)	(11.6)	(23.8)	(23.8)	(43.1)

Line Number in Fig. 3	Line Number in Ref. 13	Line Assignments (Major Transitions Only)
1	1106	P119(35,0)
2	1107	R86(33,0)/R44(39,2)
3	1108	R106(34,0)
4		P22(43,3)/P147(50,2)
5		R118(44,2)/R24(43,3)
6		P97(42,2)
7		P84(41,2)/R99(42,2)
8		P67(40,2)
9		P181(43,0)
10	1109	R134(36,0)/P83(33,0)
11		R92(47,3)
12		R70(45,3)
13		R86(41,2)
14		P135(47,2)
15		R69(40,2)/P41(39,2)/R141(48,2)
16	1110	R56(32,0)
17	1111	P159(39,0)/P103(34,0)/P53(32,0)
18		P51(44,3)/R112(50,3)
19		R125(45,2)
20		R161(39,0)/R43(39,2)
21		R82(46,3)
22	1112	P142(37,0)
23		R109(43,2)

Side Arm Temperature (°C)	Cell Pressure (Torr)	Optical Depth [-ln(minimum transmission)] (Predicted Value Based on Model)
Side Arm Temperature (°C)	Cell Pressure (Torr)	Line 1	Line 2	Line 3	Line 10	Line 16	Line 17
30	0.47	3.1	5.8	3.6	7.0	6.9	12.4
		(3.1)	(6.1)	(3.7)	(7.5)	(7.5)	(13.6)
35	0.70	4.7	8.8	5.4	10.8	10.2	–
		(4.7)	(9.1)	(5.5)	(11.2)	(11.2)	(20.3)
40	1.03	6.8	12.8	7.9	14.9	14.9	–
		(6.9)	(13.3)	(8.0)	(16.4)	(16.5)	(29.8)
45	1.49	9.7	–	10.9	–	–	–
		(10.0)	(19.3)	(11.6)	(23.8)	(23.8)	(43.1)

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Applied Optics