Acousto-optic modulators (AOM) allow the intensity of light to be controlled and modulated at rates that far exceed mechanical shutters, even up to 70 MHz. Our modulators are optimized for low scatter and high laser damage threshold. Rise time, modulation rate, beam diameter, and power handling needs of the application need to be understood in order to identify the best acousto-optic modulator and RF driver solution.
An acousto-optic modulator (AOM) uses sound waves within a crystal to create a diffraction grating. As the power of the applied RF signal is varied, the amount of diffracted light varies proportionally. Modulators can be used like a shutter (cycling light on and off at a set frequency), or as a variable attenuator (controlling the intensity of transmitted light dynamically).
The most important factor in selecting a modulator is the required speed. This influences the choice of material, modulator design, and RF driver to be used. The speed of a modulator is described by the rise time, which determines how quickly the modulator can respond to the applied RF driver, and limits the modulation rate. Rise time is proportional to the time required for the acoustic wave to traverse the optical beam and for this reason is influenced by the beam diameter within the modulator.
Rise time, modulation rate, beam diameter, and power handling needs of the application need to be understood in order to identify the best acousto-optic modulator and RF driver solution. An acousto-optic modulator (AOM) uses sound waves within a crystal to create a diffraction grating. Gucci Mane The Gooch latest new mixtapes for free streaming and download.
Modulators fall into two general categories as regards speed. Very fast modulators can provide modulation frequencies up to ~70 MHz and can have a rise time as low as 4 ns. The input beam must be focused very tightly focused into the modulator to achieve this speed. Lower frequency modulators do not have this constraint, however, and can accept larger input beams. Their rise time is usually specified relative to the input beam diameter, in ns/mm.
In addition to speed, we also consider other selection criteria when identifying the right modulator and RF driver:
The goochhousego Python module which provides programmatic access to the driver; aotf-ui: A small Gtk+ interface for configuring the driver's parameters. Aotf-config: A command-line utility for configuring the driver's parameters; A set of udev rules (99-gooch-housego-aotf.rules) to give the AOTF driver the /dev/ttyUSB.aotf name; aotf-ui. Franco-German relations, 1871-1914 by Gooch, G. Download PDF EPUB FB2 Franco-German Relations Gooch G on.FREE. shipping on qualifying offers. Franco-German Relations Additional Physical Format: Online version: Gooch, G.P. (George Peabody), Franco-German relations, London, New York, Longmans, Green, Additional Physical Format: Online.
- Wavelength of operation
- Optical power
- Type of modulation needed (analog or digital)
- Beam diameter
- Desired contrast ratio
- Light polarization
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Most applications require high contrast between the “on” and “off” states of the modulator, and thus make use of the first order diffracted beam. This results in extinction ratios of 40 dB and higher, but results in lower throughput of the deflected beam (typically 85-90%). In some applications such as intensity leveling, transmission is more important and a contrast ratio of ~10 dB is acceptable. This allows the undiffracted 0th order beam to be used, typically resulting in > 99% light throughput.
Applications of Modulators
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Heterodyne interferometry, intensity levelling, intensity modulation, laser cooling, laser Doppler velocimetry, laser Doppler vibrometry (LDV), laser linewidth measurements, LIDAR, marking, material processing, micromachining, printing, via drilling