An Instrument for Automated Measurement of the Angles of Cut of Doubly Rotated Quartz Crystals,

Abstract

The development of an automated x-ray orientation system for accurate measurement of the angles of cut of doubly rotated quartz crystal plates is described. Our goal is to develop a prototype instrument capable of determining the conventional phi and theta angles to 4 arc-seconds reproducibility and 10 arc-seconds absolute accuracy for the SC-cut, and capable of measuring the general orientation of any cut on the bulk-wave zero-temperature-coefficient locus. Blanks are assumed to be pre-cut to within 15 minutes of the desired angles of cut. A prototype laser-assisted Laue diffractometer has been fabricated, and we are currently at the stage of evaluating and refining its performance. Currently the performance of the x-ray subsystem is as good as 2 arc-seconds. Recent improvements to the laser subsystem have brought its performance in line with that of the x-ray subsystem. When blanks are remounted between measurements, a precision of 3-4 arc-seconds standard deviation in phi and theta is observed for blanks with 3-5 micron surface finish.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 1982

Accession Number

ADP001538

Entities

Tags