Measuring the angles and pyramidal error of high-precision prisms c':� �4e)�
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High-precision prisms, having maximum angle tolerances �J��#t8x�L
of 1 to 3 arcsec, find increasing application in optical metrology. $J��,$_O6�
Reported interferometric techniques for measuring XW@�C_@*J
the wedge angles of such prisms achieve a precision of up /=�A@�O !l
to 0.1 arcsec ~Ref. 1!, while noninterferometric techniques 7~'%ThUb$-
have a precision of up to 2 arcsec ~Ref. 2!. Reported noninterferometric W-� nS{�v(
methods have made use of goniometers,2 �R�rY�N�tc
spectrometers,3 master prisms,4,5 and collimators.6 However, s0�/m qZ]s
in the literature there are few reported methods for jp�@X,H�ES
measuring the pyramidal error, and the majority rely on csxn"�Dz\�
visual observation,2,7,8 by which it is only possible to measure ,dw�\y/d�n
pyramidal errors to the order of 1 arcmin ~Ref. 8!. �Q~k�|lTf
In the new arrangement presented here, one can measure ^tW�S�u?9�
the prism angle and the pyramidal error separately or in W�1t_�P&i
combination. This is possible because the measurements ��m}z�Xy�\
are made simultaneously but with different techniques.
