Measuring the angles and pyramidal error of high-precision prisms ]�z�U�<=b@
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High-precision prisms, having maximum angle tolerances )m��8>�w6"
of 1 to 3 arcsec, find increasing application in optical metrology. yl<$yd0Zdu
Reported interferometric techniques for measuring iT5�Su�Iv
the wedge angles of such prisms achieve a precision of up a<'�$`�z|s
to 0.1 arcsec ~Ref. 1!, while noninterferometric techniques Zk#i9[g9*�
have a precision of up to 2 arcsec ~Ref. 2!. Reported noninterferometric �bM^A9�BxD
methods have made use of goniometers,2 ��8.Ef�5-m
spectrometers,3 master prisms,4,5 and collimators.6 However, �HoE�./�/b
in the literature there are few reported methods for kQ�d[E�-b7
measuring the pyramidal error, and the majority rely on &�NjZD4m`=
visual observation,2,7,8 by which it is only possible to measure 8ex:OTz�n|
pyramidal errors to the order of 1 arcmin ~Ref. 8!. *r���z(}(r
In the new arrangement presented here, one can measure $lAb��6e$n
the prism angle and the pyramidal error separately or in \G=�R hx f
combination. This is possible because the measurements c9TAV,/fF*
are made simultaneously but with different techniques.
