Measuring the angles and pyramidal error of high-precision prisms Dv
�L8}dz
���w^("Pg`
High-precision prisms, having maximum angle tolerances Q��l�eVW��
of 1 to 3 arcsec, find increasing application in optical metrology. �e /1�x/v'
Reported interferometric techniques for measuring }/�h&`0z�`
the wedge angles of such prisms achieve a precision of up :�Ocw+X�3�
to 0.1 arcsec ~Ref. 1!, while noninterferometric techniques t�`{T:Tjc�
have a precision of up to 2 arcsec ~Ref. 2!. Reported noninterferometric �7�S^G]g!x
methods have made use of goniometers,2 $zU�%?[J��
spectrometers,3 master prisms,4,5 and collimators.6 However, #�HW<@E�
in the literature there are few reported methods for t��K/�.9qP
measuring the pyramidal error, and the majority rely on U]w"T{;@.)
visual observation,2,7,8 by which it is only possible to measure k��#u)+e.'
pyramidal errors to the order of 1 arcmin ~Ref. 8!. �t�1"#L_<e
In the new arrangement presented here, one can measure Zd%w�X<hU"
the prism angle and the pyramidal error separately or in bi�BMd�(6�
combination. This is possible because the measurements 6�y1\a�r(A
are made simultaneously but with different techniques.
