riber

Beam Flux Gauges

Details

  • Retractable mechanism – for measurement and parking position
  • Based on Bayard Alpert principle

Presentation

Bayard Alpert gauges are workhorses’ components in UHV measurements. Their technology enable very low-pressure measurement, down in the 10-12 Torr range.

Working principle is based on ionization of gas molecules, which are attracted by a collector; measurement of current intensity is directly linked to the gas molecule density, ie, the pressure.

There are two types of materials commonly used for filaments cathodes in Bayard Alpert gauges (vacuum measurements), tungsten or iridium. Two types of coatings are also used on the filaments : thorium or yttrium.

Flux measurement is achieved by monitoring the output of a Bayard Alpert ion gauge, positioned in the path of K-cell emissions, where it can measure the beam equivalent pressure. The ion gauge assembly is equipped with a motorized feedthrough which can be moved into the monitoring position, the movement being linear for C21 and MBE412 series, and rotational for MBE49/6000.

Technical information

Characteristics Bayard Alpert gauge
Filament type Tungsten (W) – Nude filament
Typical BEP range 10-3 to 10-9 Torr
Positioning repeatability +/-0,5 mm

Component interfacing

Information request

    Please enter the letters and numbers you see in the picture.

    captcha

    *required

    The information collected on this form is recorded in a computerized file by RIBER to answer your questions and requests.

    They are kept for 3 years and are intended for the sales department.

    In accordance with the GDPR directive, you can exercise your right of access to data concerning you and have them rectified by contacting us using this same form.

    For more information: See our privacy policy

    © 2024 Riber - Legal Notice - Privacy Policy - General purchasing conditions / Conditions générales d'achat - Cookies Management - Index Egalité professionnelle

    Double-Y