High voltage determination and stabilization for collinear laser spectroscopy applications.

Fast beam collinear laser spectroscopy is the established method to investigate nuclear ground state properties such as the spin, the electromagnetic moments, and the charge radius of exotic nuclei. These are extracted with high precision from atomic observables, i.e.

Nuclear Charge Radii of Silicon Isotopes.

The nuclear charge radius of ^{32}Si was determined using collinear laser spectroscopy. The experimental result was confronted with ab initio nuclear lattice effective field theory, valence-space in-medium similarity renormalization group, and mean field calculations, highlighting important achievements and challenges of modern many-body methods. The charge radius of ^{32}Si completes the radii of the mirror pair ^{32}Ar-^{32}Si, whose difference was correlated to the slope L of the symmetry energy in the nuclear equation of state.

Precision Mass Measurement of the Proton Dripline Halo Candidate ^{22}Al.

We report the first mass measurement of the proton-halo candidate ^{22}Al performed with the low energy beam ion trap facility's 9.4 T Penning trap mass spectrometer at facility for rare isotope beams. This measurement completes the mass information for the lightest remaining proton-dripline nucleus achievable with Penning traps.

Orthotopic kidney transplantation from a living renal donor after interventional therapy for bilateral arteriosclerosis obliterans of the iliac arteries: A case report and literature review.

Introduction: Orthotopic kidney transplantation is an option when heterotopic kidney transplantation into the iliac fossa is inappropriate. We report a case of orthotopic kidney transplantation following stenting of both external iliac arteries to treat arteriosclerosis obliterans.

Case Presentation: A 56-year-old woman on hemodialysis for end-stage kidney disease underwent living-donor kidney transplantation.