Daniel Hanf scite author profile

High intensity laser driven proton beams are at present receiving much attention. The reasons for this are many but high on the list is the potential to produce compact accelerators. However two of the limitations of this technology is that unlike conventional nuclear RF accelerators lasers produce diverging beams with an exponential energy distribution. A number of different approaches have been attempted to monochromise these beams but it has become obvious that magnetic spectrometer technology developed over many years by nuclear physicists to transport and focus proton beams could play an important role for this purpose. This paper deals with the design and characterisation of a magnetic quadrupole system which will attempt to focus and transport laser-accelerated proton beams.

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Cluster Tool for In Situ Processing and Comprehensive Characterization of Thin Films at High Temperatures

Wenisch

Lungwitz

Hanf

et al. 2018

Anal. Chem.

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A new cluster tool for in situ real-time processing and depth-resolved compositional, structural and optical characterization of thin films at temperatures from -100 to 800 °C is described. The implemented techniques comprise magnetron sputtering, ion irradiation, Rutherford backscattering spectrometry, Raman spectroscopy, and spectroscopic ellipsometry. The capability of the cluster tool is demonstrated for a layer stack MgO/amorphous Si (∼60 nm)/Ag (∼30 nm), deposited at room temperature and crystallized with partial layer exchange by heating up to 650 °C. Its initial and final composition, stacking order, and structure were monitored in situ in real time and a reaction progress was defined as a function of time and temperature.

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Oxygen depth profiling with subnanometre depth resolution

Kosmata¹,

Munnik²,

Hanf³

et al. 2014

Nuclear Instruments and Methods in Physics Research Section B:

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Daniel Hanf

The new 6MV AMS-facility DREAMS at Dresden

A new particle-induced X-ray emission set-up for laterally resolved analysis over wide areas

Characterisation of permanent magnetic quadrupoles for focussing proton beams

Cluster Tool for In Situ Processing and Comprehensive Characterization of Thin Films at High Temperatures

Oxygen depth profiling with subnanometre depth resolution

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