LASER 2006: Proceedings of the 7th International Workshop on Application of Lasers in Atomic Nuclei Research "Nuclear Ground and Isometric State Properties" (LASER 2006) held in Poznan, Poland, May 29-June 01, 2006 (Google eBook)
K. Marinova, Z. Blaszczak, B. Markov
Springer Science & Business Media, Apr 15, 2010 - Technology & Engineering - 262 pages
The central part of the planned FAIR project in Darmstadt is a heavy ion syn chrotron called SIS300 with a magnetic rigidity Bp =300 Tm and a circumference of 1,100 m . 1 The magnetic field will be produced by superconducting magnets with a maximum induction of 6 Tesla which can be ramped with a rate of 1TIs. With this OeV/u, synchrotron bare uranium can be accelerated up to a maximum energy of 34 corresponding to a relativistic factor y = 1/. 11 - f32 = 37. 5 and a reduced velocity f3 = v/c = 0. 9996444, with c the speed of light. A fascinating possibility of this accelerator is the excitation of few electron systems by the interaction with the light of conventional lasers in a collinear geometry. If the laser beam counter-propagates y = 36, the laser light at the blue edge of the visible lithium-like uranium with spectral range with an energy of IuaL = 3. 898eV isDoppler-shifted and appears in the rest frame of the Li-like system with an energy of tUJJo~ 2yliwL = 280. 6 eV. As will be outlined in more detail in Section 2 this is just the 2P / - 2S / transition energy 1 2 I 2 in lithium-like uranium. A variety of spectroscopic possibilities exist if this transition can be induced.
What people are saying - Write a review
We haven't found any reviews in the usual places.
accelerated antiprotonic atomic beam Aysto binding energy Business Media B.V. calculated collinear collinear laser spectroscopy correlation deformation detection dye laser effect efficiency electron excitation experimental experiments field fluorescence ground Huber Hyperfine Interact hyperfine structure Instrum ion beam ion guide ion source ionisation scheme ISOLDE ISOLTRAP isomeric isomers isotope shifts Jyvaskyla Kluge laser beam laser cooling laser ion source laser light laser spectroscopy laser system Lett Li-like ion magnetic magnetic moment Mainz mass separator measured method neutron neutron-rich non-linear resonances Nucl nuclear charge radii nuclear moments nuclear spin nuclear structure nuclei nucleon observed obtained on-line optical pumping parameters particles Penning trap Phys Physics precision produced proton Published online pulse quadrupole moments radii changes radioactive radius relativistic resonance ionization RILIS setup shell shell model shown in Fig spectra spectrum Springer Science stability target technique transition values velocity wavelength