The MAX IV Laboratory The biggest and most ambitious Swedish research infrastructure project ever

A walk in the Future

Jesper Andersen Science Director, MAX IV Laboratory > 25 years of experience operating MAX-lab

A truly national laboratory ...

.. and international

Sweden 26,2% 44,3% Denmark 1,2% Norway 5,2% 19,7% Finland 3,5% Baltic countries

Other (25 countries) The future will not be this futuristic Instead it will look like this in 2015

We are here The MAX IV Timeline

2009 2011 2013 2015 2016 2016-20?? Basic funding Initial Civil construction Linac operation Rings operation Adding more approved funding approved ready for Linac Civil construction All initial 7 Start Linac ready Beamlines in Develop the construction FemtoMAX operation facility further beamline FEL? operation The MAX IV Timeline

(Probably) the best light in the World MAX IV HOW is this possible? (Probably) the best light in the The MAX IV Lattice World Multibend acromats Mikael Eriksson MAX IV on the inside

300m LINAC: Injects the rings & drives femtosecond X-ray source - 2014

1.5 GeV ring (96m) - 2016

3 GeV ring (528m) - 2015 World’s brigthest ring based light source

~25 beamlines when capacity is fully utilized 7 6 1 5 8

The first 7 beamlines funded by 2 KAW and 12 Swedish Universities

1. FemtoMAX fs dynamics in solids 2. NanoMAX 4 Nano-imaging & - spectroscopy 3 3. BALDER Chemical spectroscopy: real-time & -conditions 4. BioMAX Protein 5. Veritas The 8th beamline funded by Electronic & magnetic excitations: solids 6. Hippie Estonia and Finland Photoemission: mBar gas pressure 7. ARPES FinEstBeaMS Electronic structure: solids Electronic structure: gases, aerosols A look at the BioMAX beamline in 2016 A look at the BioMAX beamline in 2013 BioMAX: High throughput protein crystallography

45 m Macromolecular Crystallography MAX IV (Probably) the best light in the Highest brilliance World Small source size and low divergence

Many photons in a small spot High degree of coherence

Advanced Imaging Methods

Linac injector

Serves as short pulse facility (SPF) Can be developed into a free laser (FEL)

Ultrafast science and structure determination

14 15/06/2013 MAX IV: Swiss Army Knife for Science

Materials – Cement

Spins

O. Bunk et al, SLS MAX IV: The next few years

2013 2014 • Install LINAC • Install & commission • Select next beamlines accelerators (Phase IIa & IIb) • Design, procure & • Internationalization … install 7+1 beamlines

2015 2016 • Close MAX I-III • Complete 3.0 & 1.5 GeV • Move to MAX IV site • Complete 7+1 BL’s • First experiment • First Light & Users! MAX IV: The next years

2013 2014 • Install LINAC • Install & commission • Select next beamlines accelerators (Phase IIa & IIb) • Design & install • Internationalization … beamlines

2015 2016 • Close MAX I-III • Complete 3.0 & 1.5 GeV • Move to MAX IV site • Complete 7+1 BL’s • First experiment • First Light & Users! MAX IV Status

• On schedule for first users summer 2016  – LINAC – 1.5 & 3.0 GeV – 7+1 Beamlines • In specification (no show stoppers)  • Budget? – ca. -68 MSEK (communicated to funders)  • LINAC installation started • Phase II BL’s & operations: application submitted

MAX IV Mission & Strategy

• Serve users from all fields • At the international forefront • High level of service for the users (new areas & users!) • International facility serving , its neighbors & the rest of the world • Actively seek new ideas & partnerships • Powerhouse for research intensive innovation • Operate MAX I-III & build MAX IV! MAX IV Needs Your Input

• Annual Users Meeting, September 23-25 • Workshops being arranged as part of Phase II beamline process (see MAX IV website) • Visits at MAX IV or by MAX IV • University Reference Group • Contact us

MAX IV Inauguration Tuesday, 21 June 2016, noon

MAX IV Laboratory is a national research infrastructure hosted by University Major funding from: