Abstract
The Nanocluster Trap endstation at BESSY II combines a cryogenic linear radio-frequency ion trap with an applied magnetic field for x-ray magnetic circular dichroism studies of cold and size-selected trapped ions. Applications include atomic, molecular, and cluster ions as well as ionic complexes.
Highlights
The setup consists of a cryogenic linear radio-frequency (RF) quadrupole ion trap inside a superconducting solenoid for x-ray magnetic circular dichroism (XMCD) spectroscopy of size-selected atomic, molecular, and cluster ions ions as well as ionic complexes
Nanocluster trap is jointly operated by Helmholtz-Zentrum Berlin, Uni Freiburg, TU Berlin, Kyushu University, and Toyota Technological Institute
Yes 5 - 300 K High transmission re ectron time-of- ight mass spectrometer for ion yield spectroscopy cryogenic linear quadrupole ion trap 0-5T 10 - 4000 amu Yes
Summary
With the Nanocluster Trap endstation, BESSY II hosts a unique experimental setup for x-ray magnetic circular dichroism (XMCD) spectroscopy of size selected and trapped cold ions (Hirsch et al, 2015; Langenberg et al, 2014; Niemeyer et al, 2012; Zamudio-Bayer, Hirsch, Langenberg, Kossick, et al, 2015; Zamudio-Bayer, Hirsch, Langenberg, Ławicki, et al, 2015; Zamudio-Bayer, Hirsch, Langenberg, Niemeyer, et al, 2015; Zamudio-Bayer et al, 2013). The setup consists of a cryogenic linear radio-frequency (RF) quadrupole ion trap inside a superconducting solenoid for XMCD spectroscopy of size-selected atomic, molecular, and cluster ions ions as well as ionic complexes. Nanocluster trap is jointly operated by Helmholtz-Zentrum Berlin, Uni Freiburg, TU Berlin, Kyushu University, and Toyota Technological Institute.
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