Photonis MCPs

Microchannel plates & detectors

The PHOTONIS Group is now proud to be able to propose a broader range of MCP and detectors consisting of both BURLE and PHOTONIS product ranges. Our two production sites inside the PHOTONIS Group are allowing dual sourcing safety and solutions to expert control limitations in US and Europe. Our MCP expertises both R&D and manufacturing include:

  • mass spectrometry detectors (long life focus)
  • electron multipliers for imaging applications (high resolution focus)
  • electron generator arrays

MCP Selection Guide  

Read on below for a technical overview of MCP technology.

For over thirty years, PHOTONIS (formerly Philips Photonics, Galileo and Burle) has consistently set the standard in electron multipliers and related products. Today, an extensive R&D program coupled with unsurpassed expertise in microchannel plate (MCP) technology continues to deliver a succession of product and process improvements that push aside previous technology imits. This expertise is utilized to mass-produce MCPs for our image intensifier tubes as well as for scientific applications. This, plus the ability to meet your product make Photonis the preferred choice of professionals the world over.

A microchannel plate (MCP) is an electron multiplier for detecting X-rays, ultraviolet radiation and charged particles. The output is a two-dimensional electron image which preserves the spatial resolution of the original input radiation, but with a linear gain up to 1000. This may be used for exciting a phosphor screen placed close to the output, giving a visual representation of the radiation pattern. Alternatively, the electron image can be read out by, for example,a wedge-and-strip or fast delay-line anode array.

Important features of MCPs are:

  • high electronic gain

  • immunity from magnetic fields

  • fast response

  • low noise

  • low power consumption

  • high spatial resolution

  • small size and ruggedness

Each plate consists of an array of tiny glass tubes fused together to form a thin disc. Both faces of the disc are metallised to provide parallel electrical connections to all channels. In a vacuum, and with a potential difference (usually 800 to 1400 V) across the plate, each channel becomes a continuous dynode electron multiplier, operating on the same principle (electron avalanche) as its cousin - the single-channel electron multiplier.

Special MCP's

Micropore optics
Photonis has developed the first-ever square-pore radially-packed X-ray focusing MCP optics and is currently refining the technology with continued support by ESA. For special projects, square-pore square-packed X-ray optics with a pore size of 10 to 100 µm, a thickness of several millimeters, formed with a spherical radius and with metal-coated pore walls for optimum reflectivity can be developed and supplied.

Curved-channel MCPs
The curved-channel MCP was invented by the Philips LEP laboratory 1973 and produced in our factory in Brive in 25 µm pore, 25 mm diameter for some time. It was seen as a new way to prevent ion feedback at high gain with preserved spatial resolution. The major application was invention of the Multi-Anode Multi-Array (MAMA) tube by Timothy et al. at the time.
Today, improved MCP readout arrangements in the form of "wedge & strip" anodes, fast delay-lines or Vernier anodes offer equal or better spatial resolution with the MCP stacks mentioned above. As the curved-channel MCPs were very difficult and costly to make in large formats they are only used for a few MAMA tubes, offered by competitors who copied the process after our patents expired.

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