7 pa e paae 4 7 page

ERRATA

======

FIG. 1 page 5

FIG. 2 page 6

FIG. 3 page 7

FIG. 4 page 49

FIG. 5 page 50

FIG. 6 paae 74

FIG. 7 pa0e 75

I U

~ 0

E

...

~ E

z Q t-w W Vl

I Vl Vl 0 0:: w

Q z

t-a..

0::

0 Vl al 4:

10-¹⁶

10-¹⁷

la-to

10-¹⁹

~~

... . ... .

~, ~ ...

10-²⁰

10-²¹

10-²²

~ ...

CH)Cl ... CHO)

10-23~----~----~----~----~---L----~----~----~~----

160 170 180 190 200 210 220 230 240

WA VELENGTH Inml

Figure 1 U.V. Absorption cross-section of chloromethanes as a function of wavelength

T = 295 K T = 210 K

260

.,

i5 E

N

E ....

Z Q

t -w

1..1..1 VI

I

VI VI 0 ~

w Z

i= 0

a.. ~

0 VI

cc -<

10-¹⁸

10-¹⁹

10-²⁰

10-21

10-²²

10-23L---~---~---~---~---~---.~---

170 180 190 200 210 220 230 240

WAVELENGTH (nm)

Figure 2 U.V. Absorption cross-section of chlorofluoromethanes as a function of wavelength

T = 295 K

..;

C1.I

-0 e

N e

..!::!.

Z

9 I-

\.,.j W Vl Vl I Vl 0

\.,.j 0::

z 0

i= a..

0 0::

Vl CO «

10-17~---,,---,---,---.---~---~---~

10-¹⁸

10-¹⁹

10-20

10-²¹

10-²²

"~ ..

'. ".

.~~ ..

".

...

....

...

...

... ~

~.~ .. ~.

CHF₂CI

".

". _'.

"~ ..

"

" '. '.

". _'.

~'. ' ..

... CHFCl

2

10-23L---~---~---~---~---~---~---~

170 180 190 200 210

WAVELENGTH (nm)

220 230 240

Figure 3 U.V. Absorption cross-section of hydrogenochlorofluoro- methanes as a function of wavelength

T = ^{295 K}

T = ^{210 K}

10-17~---_~---.---,---,---~---~---~

"j. _u 10-¹⁶

Q)

-0 E

N E

~ 10-¹⁹ z Q ...

U

LIJ '1 10-²⁰

VI VI

o 0::

U

§ 10-21

...

0...

0:: o

VI ~ 10-²² "

10-23L---L---~---~---~---~---~---~

170 180 190 200 210 220 230

WA VELENGTH Inml

Figure 4 U.V. Absorption cross-section of chloro and

chlorofluoro ethanes as a function of wavelength.

T = 295 K T = 210 K

240

10-¹⁶

10-¹⁷

.-I

U

Qj 10-¹⁸

0 e

N e _{u 10-19}

z e

I -

\-I 10-²⁰

I.L.I Vl I Vl Vl C)

10-²¹

c:: \-I

:z e

10-²²

I - D-c::

a Vl III 10-²³ -<

10-²⁴

140 160 180 200 220 240 260

WAVELENGTH 10m)

Figure 5 U.V. Absorption cross-section of chlorofluoroethanes and ethylenes at ambient temperature as a function of wavelength.

280

... _,

U 1O-^11l

~ 0

E

N

E .... ^10-19

Z 0

I- 10-²⁰

LJ W Vl

J

Vl 10-²¹

Vl 0 a::

LJ

Z 10-²²

0 I- 0.. a::

0 10-²³

Vl CO <:

10-²⁴

160 180 200 220 240 260 280

WAVELENGTH (nm)

Figure 6 U.V. Absorption cross section of bromomethanes at ambient temperature as a function of wavelength.

300

10-17r---.---~----,_----._----_.----_r----_.----_.----~----_,

..

Q)

'0 10-¹⁶

E 10-¹⁹

N

~ E

z 9 10-²⁰

I-w LI..I Vl I Vl Vl o

a:: w

z

10-²¹

9 10-²²

I-a.

a:: o

Vl

OJ 4: 10-²³

10-24~ ____ ^{L _ _ _ _ _ ~ _ _ _ _ ~ _ _ _ _ ~ _ _ _ _ _ L _ _ _ _ _ L _ _ _ _ ~ _ _ _ _ ~ _ _ _ _ ~ _ _ _ _ ~}

160 180 200 220 240 260 280

WAVELENGTH (nm)

300 320 340

Figure 7 U.V. Absorption cross-section of bromoethanes at ambient temperature as a function of wavelength.

360