Filip Lindau
Titel
Forskningsingenjör
Organisation
046-2223968
+46708445194
Filip [dot] Lindau [at] maxlab [dot] lu [dot] se
Publikationer (hämtat ur Lunds universitets publikationsdatabas)
författare
- 2011
- 2010
- 2009
- 2008
- Active steering of laser-accelerated ion beams
- Characterisation of monoenergetic electron beams produced at the Lund Laser Centre
- Characterization of a transient collisional Ni-like molybdenum soft x-ray laser pumped in grazing incidence
- Characterization of quasi-monoenergetic electron beams at the lund laser centre
- Diagnostic Tools for the Undulator System of the Seeded HGHG-FEL at MAX-lab
- PROGRESS OF THE COMMISSIONING OF THE TEST FEL AT MAX-lab
- SEEDING OF THE TEST-FEL AT MAX-LAB
- Status of the FEL Test Facility at MAX-lab
- Status of the Undulator System of the Seeded HGHG-FEL Test Bench at MAX-lab
- The Synchrotron Radiation and Free Electron Laser Project MAX IV at MAX-lab
- 2007
- Active manipulation of the spatial energy distribution of laser-accelerated proton beams
- Influence of shock waves on laser-driven proton acceleration
- Laser-driven particle acceleration - Experimental investigations
- Lateral electron transport in high-intensity laser-irradiated foils diagnosed by ion emission
- Low- and medium-mass ion acceleration driven by petawatt laser plasma interactions
- On the stability of laser wakefield electron accelerators in the monoenergetic regime
- Optimization toward a high-average-brightness soft-x-ray laser pumped at grazing incidence
- Quantitative study of 10 Hz operation of a soft x-ray laser-energy stability and target considerations
- Scaling of proton acceleration driven by petawatt-laser-plasma interactions
- 2006
- Detection of short lived radioisotopes as a fast diagnostic for intense laser-solid interactions
- Effect of contrast ratio on electron beam stability in laser wakefield acceleration experiments
- Enhanced proton beams from ultrathin targets driven by high contrast laser pulses
- High-cadence XUV laser pumped by titanium laser: Saphir, towards the LASERIX station
- High-intensity laser-driven proton acceleration: influence of pulse contrast
- Laser-wakefield acceleration of monoenergetic electron beams in the first plasma-wave period
- 2005
