Measuring the angles and pyramidal error of high-precision prisms HxM��sH5�;
r9���Z/y*q
High-precision prisms, having maximum angle tolerances XJzX��xhk2
of 1 to 3 arcsec, find increasing application in optical metrology. �0c5_�L6_z
Reported interferometric techniques for measuring \�$�C���4H
the wedge angles of such prisms achieve a precision of up .HB�v��s=i
to 0.1 arcsec ~Ref. 1!, while noninterferometric techniques �R�rHn�DO'
have a precision of up to 2 arcsec ~Ref. 2!. Reported noninterferometric '�m�cJ/9)v
methods have made use of goniometers,2 1pb;A�;F,A
spectrometers,3 master prisms,4,5 and collimators.6 However, S2R[vB4).�
in the literature there are few reported methods for C��P#79�=1
measuring the pyramidal error, and the majority rely on rxK0<pWJhx
visual observation,2,7,8 by which it is only possible to measure 9��^�� r��
pyramidal errors to the order of 1 arcmin ~Ref. 8!. *���jK))|%
In the new arrangement presented here, one can measure >>�$|,Q-�.
the prism angle and the pyramidal error separately or in QP B"�E��W
combination. This is possible because the measurements $P��(nh'\�
are made simultaneously but with different techniques.
