MAX IV Laboratory
Synchrotron radiation facility at Lund University in Sweden / From Wikipedia, the free encyclopedia
MAX IV is a next-generation[3][4] synchrotron radiation facility in Lund, Sweden.[5] Its design[6][7] and planning has been carried out within the Swedish national laboratory, MAX-lab, which up until 2015 operated three storage rings for synchrotron radiation research: MAX I (550 MeV, opened 1986), MAX II (1,5 GeV, opened 1997) and MAX III (700 MeV, opened 2008). MAX-lab supported about 1000 users from over 30 countries annually. The facility operated 14 beamlines with a total of 19 independent experimental stations, supporting a wide range of experimental techniques such as macromolecular crystallography, electron spectroscopy, nanolithography and production of tagged photons for photo-nuclear experiments. The facility closed on 13 December (St Lucia dagen) 2015 in preparation for MAX IV.
General properties | |
---|---|
Accelerator type | Synchrotron light source |
Beam type | Electrons |
Target type | Light source |
Beam properties | |
Maximum energy | 3 GeV[1] |
Maximum current | 500 mA[1] |
Physical properties | |
Circumference | 528 metres (1,732 ft)[1] |
Location | Lund, Sweden |
Coordinates | 55.727°N 13.233°E / 55.727; 13.233 |
Institution | Lund University |
Dates of operation | 2016 - present[2] |
Preceded by | MAX III[2] |
On 27 April 2009 the Swedish Ministry of Education and Research, Swedish Research Council, Lund University, Region Skåne and Vinnova, a Swedish government funding agency, decided to fund the research center.[8]
The new laboratories, including two storage rings and a full-energy linac is situated in Brunnshög in Lund North East. The inauguration of MAX IV took place 21 June 2016, on the day of summer solstice.[8] The larger of the two storage rings has a circumference of 528 meters, operates at 3 GeV energy, and has been optimized for high-brightness x-rays. The smaller storage ring (circumference 96 meters) is operated at 1.5 GeV energy and has been optimized for UV.[9] There are also plans for a future expansion of the facility that would add a free-electron laser (FEL) to the facility, but is yet to be funded.[8]
There are currently 16 beamlines at the facility with 10 of them located around the 3 GeV ring, 5 around the 1.5 GeV ring and one at the linear accelerator.[10]