Chapter 6 Gated Operation; Introduction - Princeton Instruments PI-MAX 3 System Manual

Gated Operation

Introduction

This chapter discusses gated operation with the SuperSYNCHRO timing generator and
aspects of operation of the PI-MAX3 not covered in Chapter 4, First Light. We
additionally suggest that you review Chapter 8, Tips and Tricks, which contains
information that should prove helpful in getting good results in more complex
measurements.
Gating provides electronic shutter action by controlling the photocathode bias, allowing
the detection of low light level signals in the presence of interfering light sources of much
greater energy. For instance, in combustion research, a pulsed laser probe is used to
investigate the chemistry within a flame. Since the flame itself emits broadband light
continuously, the integrated flame emission is much greater than the integrated signal
resulting shortly after the laser probe (such as laser-induced fluorescence or Raman).
Fortunately, since the laser pulse is very short and the time at which it occurs is known, it
is possible to gate for a few nanoseconds during the laser pulse, thus reducing the flame
emission interference by approximately the measurement duty factor ratio.
Exposure time is the 'time space' from which charge integrating on the CCD will get
summed into the reported data. Gate width is the time during which light will be detected
by the intensifier, intensified, and applied to the CCD. Basically, the intensifier controls
what the chip 'sees' during the exposure time.
For signal to be detected, it must fall in a valid gate width during a valid exposure. Many
gate pulses can be placed into one exposure at repetitive or sequential intervals because
there is no temporal measure inside a given exposure (all incident signals get summed
(integrated) into one value per pixel/superpixel inside a given exposure).
Using presently available image intensifiers and gate pulse generators, optical gate times
≤ 4 ns FWHM (full width at half maximum) are possible. Since the control is electronic,
the gate width can be made virtually as long as desired, allowing a wide range of
experiment requirements to be satisfied in one instrument setup. Further, in UV
measurements, where the On:Off ratio is only 10
feature can be used to extend the On:Off ratio to 10
Chapter 6
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