19 research outputs found
4d-inner-shell ionization of Xe+ ions and subsequent Auger decay
We have studied Xe+4d inner-shell photoionization in a direct experiment on
Xe+ ions, merging an ion and a photon beam and detecting the ejected electrons
with a cylindrical mirror analyzer. The measured 4d photoelectron spectrum is
compared to the 4d core valence double ionization spectrum of the neutral Xe
atom, obtained with a magnetic bottle spectrometer. This multicoincidence
experiment gives access to the spectroscopy of the individual Xe2+4d−15p−1
states and to their respective Auger decays, which are found to present a
strong selectivity. The experimental results are interpreted with the help of
ab initio calculations.1\. Auflag
Multielectron spectroscopy: energy levels of K n + and Rb n + ions ( n = 2, 3, 4)
International audienc
A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe 3+ above xenon-4d ionization threshold
International audienceNew magnet design of a magnetic bottle electron spectrometer allowing the detection of multiply charged ions in coincidence with n electrons. Electrons spectra obtained without and with filtering by coincidence with Xe n + ions
Core-hole spectator Auger decay
International audienceFor an atomic state with two electrons missing from different core orbitals one may assume that the deeper hole decays first. However it is quite probable that the double core-hole state will decay by emission of a slow Auger electron where the deeper core hole remains a spectator, especially if the outer core hole can be filled by Coster-Kronig transition, while the deeper cannot. We study here the competition of both Auger decay channels in a model system, the 1s2s2p 6 (3s/3p) states of Ne + ions. As the phenomenon can take place in any decay chain involving multiple core-excited states it can be critical to understand the ion yields, the electron and x-ray emission spectra, and the molecular fragmentation
Effect of temperature in bands structure, effective mass and correlation with magneto-transport properties in a nanostructure far-infrared detector superlattice
We report here the effect of temperature in bands structure performed in the envelope function formalism, effective mass and magneto- transport properties of n-type HgTe (d(1)=8.6 nm) /CdTe (d(2)=3.2 nm) superlattices (SLs). When d(2) increase the gap E-g(Gamma) decrease to zero, at the transition semiconductor to semimetal conductivity, and become negative accusing a semimetallic conduction after the point T'(d(2)T', ET'). d(2)T' and ET' increases with temperature and removes the transition to higher d(2). Eg(Gamma) increases from 48 meV at 4.2 K to 105 meV at 300K. The Fermi level is constant (E-F(2D) approximate to 90 meV) until 77K and increases to 167 meV at 300K. Our Theoretical calculations have provided good agreement with the experimental data. The formalism used here predicts that the system is semiconductor for our ratio d(1)/d(2) = 2.69, when d(2) < 100 nm. In our case, d(2)=3.2 nm and E-g (Gamma,77K) = 60 meV so this sample is a two-dimensional far-infrared detector semiconductor (12 mu m<lambda(c)<28 mu m).Idbaha, A.; Nafidi, A.; Khallouq, K.; Charifi, H.; Chaib, H.; Marí, B.; Mollar García, MA.... (2013). Effect of temperature in bands structure, effective mass and correlation with magneto-transport properties in a nanostructure far-infrared detector superlattice. Journal of Optoelectronics and Advanced Materials. 15(11-12):1275-1279. http://hdl.handle.net/10251/84267S127512791511-1
Multielectron spectroscopy:energy levels of Kn⁺ and Rbn⁺ ions (n = 2, 3, 4)
Abstract
A magnetic bottle time-of-flight spectrometer has been used to perform spectroscopy of K n⁺ and Rb n⁺ states with ionization degrees n of 2, 3 and 4. Energy levels are directly measured by detecting in coincidence the n electrons that are emitted as a result of single photon absorption. Experimental results are compared with the energies from the NIST atomic database and ab initio multiconfiguration Dirac–Fock calculations. Previously unidentified 3p ⁴(³P)3d ¹ ⁴D energy levels of K²⁺ are assigned
4d-inner-shell ionization of Xe+ ions and subsequent Auger decay
Abstract
We have studied Xe+4d inner-shell photoionization in a direct experiment on Xe+ ions, merging an ion and a photon beam and detecting the ejected electrons with a cylindrical mirror analyzer. The measured 4d photoelectron spectrum is compared to the 4d core valence double ionization spectrum of the neutral Xe atom, obtained with a magnetic bottle spectrometer. This multicoincidence experiment gives access to the spectroscopy of the individual Xe2+4d−15p−1 states and to their respective Auger decays, which are found to present a strong selectivity. The experimental results are interpreted with the help of ab initio calculations