JM Freriks scite author profile

JM Freriks

2Publications

19Citation Statements Received

11Citation Statements Given

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Eindhoven University of Technology

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Thomson scattering using an atomic notch filter

Bakker

Freriks

Hoog

et al. 2000

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One of the biggest problems in performing Thomson scattering experiments in low-density plasmas is the very high stray light intensity in comparison with the Thomson scattering intensity. This problem is especially present in fluorescent lamps because of the proximity of the glass tube. We propose an atomic notch filter in combination with a dye laser and an amplified spontaneous emission ͑ASE͒ filter as a way of reducing this stray light level. The dye laser produces 589 nm radiation which is guided through the ASE filter that increases the spectral purity. The beam is then guided in the fluorescent lamp, where the Thomson scattering process takes place. The scattered light is collected and guided through a sodium vapor absorption cell, where the stray light is absorbed because it is resonant to the D 2 transition of sodium. The spectral width of the Thomson scattering light is large enough to be transmitted through the absorption cell. In this way we only measure the Thomson scattering light.

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A new ASE filter: the 20-fold prism monochromator

Bakker

Freriks

Kroesen

1999

Meas. Sci. Technol.

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A new ASE filter is presented, consisting of 20 dispersion prisms and two spatial filters. The transmission of the filter is measured with a ring-dye laser. The 1 width of the filter is 0.23 nm. The transmission is approximately 80% for the transmitted wavelengths. The rejection is in the order of . The transmission profile is calculated from the index of refraction of the prisms, Snell's law, and the laser waist diameter. The calculated profile fits the measured profile very well.

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JM Freriks

Thomson scattering using an atomic notch filter

A new ASE filter: the 20-fold prism monochromator

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