T. Fiegele scite author profile

We have studied the ionization behaviour close to threshold for the fragment ion production from CF 4 , CHF 3 , CH 4 and C 3 H 8 . In particular, we use a reliable method to extrapolate weak ion signals towards the appearance energy. Our evaluation is based on an extension of Wannier's law for the ionization of atoms towards the case of polyatomic molecules. In the experiment we use a hemispherical electron monochromator with an energy resolution of ≈135 meV. The vibrationally cold target molecules are prepared in a supersonic expansion and the resulting ions are mass analysed using a quadrupole mass spectrometer. We observe several disagreements with recommended ionization energy values, reaching up to 5 eV in the CHF 3 case. This is in contrast to a number of recent reliability tests that we have performed on Ne, Ar, Kr, Xe, H 2 , D 2 , N 2 , O 2 and N 2 O and that have reproduced the tabulated literature data within the resolution of the monochromator.

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Ultrasound-guided Facet Joint Injections in the Middle to Lower Cervical Spine

Galiano

Obwegeser

Bodner

et al. 2006

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Successful surgical treatment of insular epilepsy with nocturnal hypermotor seizures

Dobesberger

Ortler²,

Unterberger

et al. 2007

Epilepsia

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Accuracy and Clinical Use of a Novel Aiming Device for Frameless Stereotactic Brain Biopsy

Widmann

Eisner²,

Kovacs³

et al. 2008

Minim Invasive Neurosurg

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Aiming devices enable the use of neuronavigation systems for rigid instrument guidance mimicking the possibilities of a frame-based system without having a stereotactic frame affixed to the skull. The aim of the presented work was to investigate the phantom targeting accuracy of the Vertek aiming device (Medtronic Inc., Louisville, USA) and whether it can be safely and accurately applied in a concept of minimally invasive brain biopsy in which multi-modal image fusion, image-to-patient registration and head immobilization were based on a non-invasive vacuum mouthpiece. A plastic model of a head with 20 target beads broadly distributed around the head volume was used for determination of CT-based targeting accuracy. Every target was punctured 5 times totaling 100 needle positionings. Accuracy was evaluated on postoperative CT scans with the needles in place. The mean normal deviation (n = 100) was 1.5 +/- 0.8 mm and the mean angle of deviation was 1.1 +/- 0.7 degrees. In a preliminary clinical series in ten patients diagnostic biopsy sampling of intracranial lesions with a median diameter of 28 mm (range: 12-90 mm) could be achieved in all patients and no biopsy related complications were recorded. The experimental results showed a similar accuracy to frame-based stereotaxy. The device facilitates trajectory alignment via two pivot joints and the actual depth and location of the biopsy needle can be monitored. Within the limitations of a preliminary study, brain biopsy may be accurately and safely performed for lesions > or = 12 mm.

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Electron impact multiple ionization of neon, argon and xenon atoms close to threshold: appearance energies and Wannier exponents

Gstir¹,

Denifl²,

Hanel³

et al. 2002

J. Phys. B: At. Mol. Opt. Phys.

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We report the results of the experimental determination of the appearance energy values AE(Xn + /X) for the formation of multiply charged Ne, Ar and Xe ions up to n = 4 (Ne), n = 6 (Ar) and n = 8 (Xe) following electron impact on Ne, Ar and Xe atoms using a dedicated high-resolution electron impact ionization mass spectrometer. The data analysis uses the Marquart-Levenberg algorithm, which is an iterative, nonlinear least-squares-fitting routine, in conjunction with either a two-function or a three-function fit based on a power threshold law. This allows us to extract the relevant AEs and corresponding exponents for a Wannier-type power law from the measured near-threshold data. The values of the AEs determined in this work are compared with other available experimental and spectroscopic values of the AEs and the extracted exponents are compared with other available experimental data and with the predictions of the various Wannier-type power law models.

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T. Fiegele

Threshold electron impact ionization of carbon tetrafluoride, trifluoromethane, methane and propane

Ultrasound-guided Facet Joint Injections in the Middle to Lower Cervical Spine

Successful surgical treatment of insular epilepsy with nocturnal hypermotor seizures

Accuracy and Clinical Use of a Novel Aiming Device for Frameless Stereotactic Brain Biopsy

Electron impact multiple ionization of neon, argon and xenon atoms close to threshold: appearance energies and Wannier exponents

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