Abstract
The description of an inexpensive vacuum ultraviolet spectrograph is presented. A representative spectrum used in the qualitative identification of arsenic is shown for the region of 1890 Å.
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References
1.
Meggers
W. F.
, J. Opt. Soc. Am. 31 , 39 (1941 ).
2.
Meggers
W. F.
, J. Opt. Soc. Am. 31 , 605 (1941 ).
3.
Balloffet
G.
Romand
J.
, and
Vodar
B.
, J. Phys. Radium 20 , 509 (1959 ).
4.
Romand
J.
and
Balloffet
G.
, J. Phys. Radium 16 , 489 (1955 ).
5.
Romand
J.
and
Berneron
R.
, XIII Colloq. Spectrosc. Intern. , Ottawa , 434 (1967 ).
6.
Milazzo
G.
, Appl. Spectry. 21 , 185 (1967 ).
7.
Milazzo
G.
, Appl. Spectry. 21 , 172 (1967 ).
8.
Milazzo
G.
, Appl. Spectry. 21 , 256 (1967 ).
9.
Milazzo
G.
, XIV Colloq. Spectrosc. Intern. , Debrecen, Hungary (1967 ).
10.
Berezin
I. A.
Degtyareva
O. F.
, and
Shevchenko
P. P.
, Zh. Prik. Spektrosk. 4 , 170 (1966 ); Anal. Abstracts 14 , No. 7 , Abstract 3816 (1967 ).
11.
Czerny
M.
and
Turner
A. F.
, Z. Physik. 61 , 792 (1930 ).
12.
Roddy
C.
and
Green
B.
, Elec. World 65 , 29 (Feb. 1961 ).
13.
Samson
J. A. R.
, Techniques of Vacuum Ultraviolet Spectroscopy (Wiley , New York , 1967 ), p. 212 .
14.Jarrell-Ash Co. , Waltham, Mass. , “Scanning Vacuum Grating Monochromators-Seya-Namioka Type,” Publication 78650–560.