E W. Bell scite author profile

We describe a variant of the quadrupole rf (Paul) ion trap capable of localization of a trapped ion to much less than an optical wavelength (Lamb-Dicke regime). The trapping potentials are generated by a high-g, vacuum-compatible, quarter-wave resonator driven at about 240 MHz. The binding strength of the trap has been characterized. The trap contains compensation electrodes which allow the cancellation of stray static electric fields within the trap. Secular frequencies of tens of megahertz have been achieved for trapped magnesium and beryllium ions.

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Absolute cross sections for electron-impact single ionization ofSi+andSi2+
Djurić
¹
,
Bell
²
,
Guo
³

et al. 1993
Phys. Rev. A
24
4
31
0
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Absolute cross sections for electron-impact single ionization of Si+ and Si + have been measured using crossed beams of ions and electrons and calculated using a configuration-average distorted-wave method. Corrections have been made for metastable components and small fractions of nitrogen impurities in the incident ion beams. Excitation-autoionization measurably enhances the cross sections of both Si+ and Si +. Ionization rate coef5cients and fitting parameters are presented for the experimental data.PACS number(s): 34.80.Kw

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Overview of the electron beam ion trap program at NIST

et al. 1995

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E W. Bell

Coaxial-resonator-driven rf (Paul) trap for strong confinement

Absolute cross sections for electron-impact single ionization ofSi+andSi2+
Djurić
¹
,
Bell
²
,
Guo
³

et al. 1993
Phys. Rev. A
24
4
31
0
View full text Add to dashboard Cite

Overview of the electron beam ion trap program at NIST

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E W. Bell

Coaxial-resonator-driven rf (Paul) trap for strong confinement

Absolute cross sections for electron-impact single ionization ofSi+andSi2+Djurić1, Bell2, Guo3 et al. 1993Phys. Rev. A244310View full textAdd to dashboardCite

Overview of the electron beam ion trap program at NIST

Contact Info

Product

Resources

About

Absolute cross sections for electron-impact single ionization ofSi+andSi2+
Djurić
¹
,
Bell
²
,
Guo
³

et al. 1993
Phys. Rev. A
24
4
31
0
View full text Add to dashboard Cite