Probe current, probe size, and the practical brightness for probe forming systems

Bronsgeest, M. S.; Barth, J.; Swanson, L. W.; Kruit, P.

doi:10.1116/1.2907780

Cited by 67 publications

(34 citation statements)

References 28 publications

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“…If one assumes a Gaussian emission distribution from the virtual source, the diameter d v 50 containing 50% of the current is given by 46 44 is not included in the calculation of d v 50. The results, given in Table 1.3 for I′ = 0.20 mA/sr, indicate that brightness levels in the range of low 1 × 10 8 A / m 2 sr V can r r decreases.…”

Section: Emitter Brightnessmentioning

confidence: 99%

Review of ZrO/W Schottky Cathode

Swanson¹,

Schwind²

2008

Handbook of Charged Particle Optics, Second Edition

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Section: Emitter Brightnessmentioning

confidence: 99%

Review of ZrO/W Schottky Cathode

Swanson¹,

Schwind²

2008

Handbook of Charged Particle Optics, Second Edition

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“…It was pointed out by Bronsgeest et al 19 that a proper definition of d v must take into account the current density distribution in the source image plane. A useful definition for d v that avoids assumptions regarding the intensity profile is the diameter containing a specified fraction of the current ͑FC͒.…”

Section: Brightnessmentioning

confidence: 99%

Off-axis emission properties for the extended Schottky electron source

Liu¹,

Schwind²,

Swanson³

2009

Journal of Vacuum Science &Amp; Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena

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Temperature dependence of the work function of the Zr ∕ O ∕ W ( 100 ) Schottky electron source in typical operating conditions and its effect on beam brightness Experimental evaluation of the extended Schottky model for ZrO/W electron emission The total energy distribution ͑TED͒ and reduced brightness from the ZrO / W͑100͒ Schottky electron source are extended to positions 4.4°off of the optical axis of the emitter. The faceted nature of the stable end form precludes a monotonic variation in emission properties with the beam angle. Both the full width at half maximum of the TED and the reduced brightness of the source increase by 37% and 18%, respectively, at an off-axis beam angle, consistent with the facet edge of the emitting ͑100͒ plane and at a constant current angular density of 0.5 mA/ sr and 1800 K source temperature. Similarly, the angular magnification and work function increase by 27% and 6%, respectively, as the beam angle increases from 0°to the facet edge at 4.4°.

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“…The average width of all edges, after discarding extreme values, we take as the d 25-75 probe size. 15 This size can conveniently be converted to the FW50 probe size without having to know the shape of the probe, 16 d FW50 = 1.76d . ͑9͒…”

Section: Experimental Setup and Methodsmentioning

confidence: 99%

Brightness measurements of a gallium liquid metal ion source

Hagen

Fokkema

Kruit

2008

Journal of Vacuum Science &Amp; Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena

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The virtual source size of a liquid metal ion source is an order of magnitude larger than the size of the region from which the ions are emitted at the source. This source size has a direct effect on the reduced brightness and, hence, on the performance of these sources. The variation of the virtual source size of a gallium liquid metal ion source as a function of the angular current density at the source has been measured. This was done by measuring the source image size from images of a pencil lead sample taken with an FEI focused ion beam system. The measurements indicate that the virtual source size grows from about 50-80 nm when the emission current increases from 1 to 10 A. The experimental data on the virtual source size are compared with the theory on stochastic Coulomb interactions in the source region. On the basis of these measurements the authors show that the reduced brightness deteriorates with an increasing angular current density. The maximum reduced brightness measured was 1 ϫ 10 6 A / ͑m 2 sr V͒.

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Probe current, probe size, and the practical brightness for probe forming systems

Cited by 67 publications

References 28 publications

Review of ZrO/W Schottky Cathode

Review of ZrO/W Schottky Cathode

Off-axis emission properties for the extended Schottky electron source

Brightness measurements of a gallium liquid metal ion source

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