Measurement of refractive index
Larsen, E. S. Jr,
Meyrowitz, R. and
Wilson, A. J. C.,
International Tables for Crystallography
(2006).
Vol. C,
ch. 3.3,
pp. 160-161
[ doi:10.1107/97809553602060000587 ]
and its use in chemical microscopy. J. R. Microsc. Soc. 54, 234–245. Google Scholar
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High-index media
Larsen, E. S. Jr,
Meyrowitz, R. and
Wilson, A. J. C.,
International Tables for Crystallography
(2006).
Vol. C,
Section 3.3.3,
pp. 160-161
[ doi:10.1107/97809553602060000587 ]
3.17 (Larsen & Berman, 1934). Above about 2.2, the index must be determined at a wavelength for which selenium is transparent; the red line of lithium is convenient.
References
Larsen,
E. S.
Jr & Berman, H. (1934 ...
Media for organic substances
Larsen, E. S. Jr,
Meyrowitz, R. and
Wilson, A. J. C.,
International Tables for Crystallography
(2006).
Vol. C,
Section 3.3.4,
pp. 161-161
[ doi:10.1107/97809553602060000587 ]
Introduction
Larsen, E. S. Jr,
Meyrowitz, R. and
Wilson, A. J. C.,
International Tables for Crystallography
(2006).
Vol. C,
Section 3.3.1,
pp. 160-160
[ doi:10.1107/97809553602060000587 ]
Media for general use
Larsen, E. S. Jr,
Meyrowitz, R. and
Wilson, A. J. C.,
International Tables for Crystallography
(2006).
Vol. C,
Section 3.3.2,
pp. 160-160
[ doi:10.1107/97809553602060000587 ]
Google Scholar
Larsen,
E. S.
Jr & Berman, H. (1934). The microscopic determination of nonopaque minerals, 2nd ed. US Geol. Survey Bull. No. 848. Google Scholar
International Tables for Crystallography (2006). Vol. C ...