Max iv laboratory. MAX IV aims to stay at the forefront of the current and .

Max iv laboratory. MAX IV is Jan 1, 2024 · We acknowledge MAX IV Laboratory for time on the CoSAXS beamline under proposals 20200104, 20200221, 20210924, 20220421, 20221045, 20230785 and 20240930. For answers to some of the most common questions, please see the FAQ page. 5 GeV storage ring of the MAX IV Laboratory, with a focus on photoelectron spectroscopy (PES), X-ray absorption spectroscopy (XAS) and electron–ion coincidence techniques. MAX IV offers access to 16 beamlines that provide modern X-ray spectroscopy, scattering/diffraction, and imaging techniques to contribute to solving scientific questions in MAX IV Laboratory is a Swedish national synchrotron laboratory that has been operating as a user facility since 2016. With multiple beamlines and experimental stations completed and in steady use, the facility is now approaching the third phase of development, which includes the final two of the 16 planned beamlines in user operation. Jun 18, 2024 · About MAX IV Laboratory MAX IV Laboratory specializes in providing brilliant X-ray light for scientific research within the domain of synchrotron radiation facilities. SE 202 100 321 101 MAX IV Linac The linear accelerator (Linac) at MAX IV is constructed for injection and top-up to the two storage rings and as a high brightness driver for the Short Pulse Facility. MAX IV uses synchrotron light to examine materials at the micrometre and nanometre length scale, and in the nanosecond and picosecond time scale to understand their chemical and physical properties. This powerful instrument offers a wide range of complementary techniques providing structural, chemical and magnetic sensitivities with a single-digit nanometre spatial resolution. MAX-lab supported about Download scientific diagram | Overview of the MAX IV laboratory. The Are you a future synchrotron user at MAX IV? Start here to get an overview of proposals, safety, access and more. Abstract MAX IV Laboratory, the first 4th generation synchrotron located in the south of Sweden, entered operation in 2017 with the first three experimental stations. Upgrade plans are under consideration MAX IV is a Swedish national research laboratory and the successor of MAXlab. Each year, 1,000 scientists from around the world use them for scientific research. Its design and planning was carried out within the Swedish national laboratory, MAX-lab, which up until 2015 operated three storage rings for synchrotron radiation research: MAX I, MAX II and MAX III. Dec 5, 2024 · MAX IV operates 16 beamlines with an opportunity to add more in the future. It focuses the coherent X-ray beam to an a tiny (below 100 nm) and extremely intense and MAX IV Laboratory, Lund University, Lund, Sweden Asymmetric Influence of the Amplitude-Dependent Tune Shift on the Transverse Mode-Coupling Instability Units 1 - 50 out of 61 results Name (ascending) Name (descending) Search results Jun 25, 2016 · MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research. In the pr … Since 2011, Snøhetta has been working on the development of a unique landscape design for the MAX IV Laboratory. MAX IV Laboratory | 15,239 followers on LinkedIn. MAX IV Laboratory has operated successfully for more than 30 years and is currently commissioning and operating the new MAX IV synchrotron facility in Lund. The facility is funded primarily by Swedish and international research funders, consortia, and 14 Swedish research universities. Additionally, more than 13 beamlines are planned to be built among which should be operational for the first MAX IV Laboratory, Lund. It utilizes the unique properties of the world’s first operational multi-bend achromat storage ring to provide an intense and coherent focused beam for experiments with several methods. Located in Lund University, MAX IV is a state-of-the-art facility that offers high-quality X-ray light for interdisciplinary research in materials and life sciences. It is the world’s first fourth-generation facility with 16 beamlines in full user operation. MAX IV Laboratory has operated successfully for more than 30 years and is currently commissioning and operating the new MAX IV synchrotron facility in MAX IV Laboratory | 15,031 followers on LinkedIn. One of the accelerators, the 3 GeV storage ring, is The MAX IV Laboratory in Lund is currently operating two storage rings, the 1. --> https://lnkd. www. Linac consists of three main hardware parts: RF power, wave guide and accelerator systems. The facility can house up to 12 additional beamlines Abstract MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. It is the successor to MAX-lab, which was in operation between 1987 and 2015. Linac lies in two parallel tunnels Jun 5, 2023 · MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. MAX IV aims to stay at the forefront of the current and MAX IV is a synchrotron light source facility in Lund, Sweden, in the northeastern quarter Brunnshög as part of an innovation district including ESS and Science Village. The focus is on achieving operational Overview MAX IV is a national research laboratory operated jointly by the Swedish Research Council and Lund University. MAX Lab was the forerunner with the MAX I, II and III accelerators. MAX IV comprises the 3 GeV storage ring, the 1. At MAX IV, researchers within areas as widely differing as biology, physics, chemistry, environmental science, geology, engineering Jun 5, 2023 · MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. se/ Visiting address Show on map Image via Snøhetta press release “The MAX IV Laboratory Landscape Design by Snøhetta to Open Summer 2016. 5 GeV, opened 1997) and MAX III (700 MeV, opened 2008). In contrast to today’s MAX facility, the electron storage rings at MAX IV will be injected at full energy. 5 GeV (R1) or 3 GeV (R3) storage rings or the Short Pulse Facility at the end of the linear accelerator. Lund University is the legal entity of the laboratory. Fully developed it will house more than 20 beamlines and welcome up to 2000 researchers per year. SE 202 100 321 101 Abstract The MAX IV Laboratory is a new scientific research facility based on synchrotron light being built at Lund University, southern Sweden. MAX IV consists of an accelerator system with two storage rings (1. se MAX IV Laboratory | 15,022 followers on LinkedIn. Designed for stability, reliability, and ease of use, BioMAX offers a streamlined experimental setup with fully or highly automated data collection capabilities. The MAX IV Laboratory is a new scientific research facility based on synchrotron light being built at Lund University, southern Sweden. Additionally more than 13 beamlines are planned to be built among which should be operational for the first users in 2016 World-leading technology The light at MAX IV is up to a hundred times brighter than at the three previous MAX facilities at Lund University. [8] Its design [9][10] and planning was 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. 🇸🇪 Synchrotron Radiation Facility. The MAX IV facility comprises two low emittance storage rings (1. The material research conducted at MAX IV has broad applications in medical, technical, biological, agricultural, industrial, and cultural fields. The MAX IV is the first part of a larger transformation of the area northeast of Lund in Sweden, aiming to turn agricultural land into a ‘Science City’, and Snøhetta designed the 19 hectares landscape park. One of the accelerators, the 3 GeV storage ring, is the world's first fourth-generation ring and pioneered the use of the multibend achromat lattice to provide access to ultrahigh brightness X-rays. 2,956 likes · 3 talking about this · 2,571 were here. Strategic alliances with Swedish universities across the entire country, research institutes and other partners have built a large and diverse academic and industrial user community These light pulses are led into a special laboratory and can be used to be able to monitor rapid chemical reactions in real time. larsson@maxiv. se). Its services cater to the scientific community The MAX IV Laboratory - We make the invisible visible MAX IV Laboratory 2016-05-10 | 16:00 NEW MAX IV WEBSITE We have a new website www. From now on no further updates will be made on this web site (www. In December 2015 the MAX-lab facility was closed and the MAX IV project moved to its new site. MAX IV Laboratory has operated successfully for more than 30 years and is currently commissioning and operating the new MAX IV synchrotron facility in At MAX IV Laboratory, the Swedish Synchrotron Radiation (SR) facility, the largest of two rings operates at 3 GeV with a bare lattice emittance of 330 pm rad. Over 2,000 international researchers will use the Swedish-based laboratory each year to conduct groundbreaking experiments in materials and life sciences using the most brilliant X-ray light ever generated. At MAX IV there are three accelerators – a linear accelerator and two storage rings. maxlab. It operates the first ultimate storage ring and is the brightest X-ray source worldwide. MAX IV is a next generation synchrotron radiation facility for materials science and will replace the existing laboratory consisting of the MAX I, II and III storage rings. May 26, 2025 · Mailing address MAX IV Laboratory Lund University First name Surname PO Box 118 SE-221 00 Lund Sweden LU internal mail: Hämtställe 58 Sep 29, 2025 · MAX IV Laboratory Sweden’s synchrotron X-ray facility, the MAX IV Laboratory, is a national research infrastructure for research in fields such as biology, physics, chemistry, environmental science, geology, engineering, pharmaceuticals and cultural heritage, making it possible to study materials and molecules down to the atomic level. It offers access to 16 beamlines that provide modern X-ray spectroscopy, scattering/diffraction and imaging techniques to contribute to solving scientific questions. The laboratory’s accelerators produce X-rays of very high intensity and quality. se VAT No. One of the accelerators, the 3 GeV storage ring, is the world’s first fourth-generation ring and pioneered the use MAX IV is the world's first 4th generation [6][7] synchrotron light source facility in Lund, Sweden. MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research with Lund University as the host university. The beamline provides an intense and coherent beam, focused to 40–200 nm in the energy range 5–28 eV. The beamline supports a wide range of experimental techniques, including experimental phasing, MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. MAX IV Laboratory is funded primarily by the Swedish government through the Swedish Research Council (Vetenskapsrådet) and reports to them annually on the overall performance. The beamline is a powerful X-ray microscope. By coupling advances in sample environment control with fast X-ray detectors, millisecond time-resolved scattering methods can follow structural dynamics of proteins in solution. MAX IV Laboratory is a Swedish national laboratory for synchrotron radiation research hosted by Lund University. Aug 15, 2016 · MAX IV is a national laboratory operated jointly by the Swedish Research Council and Lund University. u2028 Up to 3 000 scientists from Sweden and the rest of the world will come to the MAX IV Laboratory every year to use the x-rays and do research MAX IV is a next-generation [3][4] synchrotron radiation facility in Lund, Sweden. Spectroscopic PhotoElectron and Low Energy Electron Dec 23, 2023 · The MAX IV Laboratory, a 4th generation synchrotron radiation facility located in southern Sweden, has been operational since 2016. from publication: The saga of MAX IV, the first multi-bend achromat synchrotron light source | This paper describes how MAX IV, the Oct 6, 2025 · Welcome to MAX IV! In this section of the web we have collected the some practical information. It is also prepared to be used as an injector for a possible future Free Electron Laser. Mar 28, 2017 · Since 2011, Snøhetta has been working on the development of a unique landscape design for the MAX IV Laboratory. Swedish national facility providing researchers with bright X-rays to make the invisible visible | MAX IV Laboratory is a national synchrotron laboratory for research performed usingn X-rays. It has been in user operation since 2017. Introduction Beamline I511 on the MAX II storage ring of the MAX IV Laboratory (formerly MAX-lab), which was decommissioned in 2013, combined successfully two types of spectroscopies: X-ray photoelectron spectroscopy (XPS) under ultrahigh-vacuum (UHV) conditions and resonant inelastic X-ray scattering (RIXS) (Denecke et al. lu. MAX IV Laboratory provides scientists with X-raysof very high intensity and quality for their research. Dec 6, 2018 · Read writing from MAX IV Laboratory on Medium. The latest additions to our MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research. The vision for MAX IV is that the facility will be a world leader of its kind. The KITS group, responsible for the control and MAX IV Laboratory is a national synchrotron laboratory for research performed usingn X-rays. Aug 26, 2016 · MAX IV is a national laboratory operated jointly by the Swedish Research Council and Lund University. The material research Sep 29, 2025 · The MAX IV linac serves two purposes: it’s a continuous top-up injector to both storage rings, but it also accelerates and compresses electron bunches for the short-pulse facility. It has been designed as a general-purpose soft X-ray beamline featuring up to four endstations with different sample environments and beam focusing Apr 7, 2018 · With the objective of providing high quality radiation over a broad spectral and time range [1], MAX IV Laboratory has been designed to offer one of the most brilliant X-ray sources thanks to the The MAX IV laboratory is a national facility at Lund’s university as a world university. Welcome to learn more about the Swedish National Synchrotron Radiation Facility. Jan 31, 2023 · Organization Legality MAX IV Laboratory, the successor of the national laboratory MAX-lab, is a Swedish national laboratory, hosted by Lund University (Swedish Code of Statutes SFS 1994 946 / SFS 2011 1567). MAX IV comprises a 3 GeV storage ring, a 1. May 11, 2023 · About us MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research with Lund University as the host university. MAX IV aims to stay at the forefront of the current and MAX IV Laboratory is a Swedish national laboratory for synchrotron radiation research hosted by Lund University. The high-performance synchrotron radiation laboratory is designed by FOJAB architects. The facility is accessible to Swedish and international scientists from academia and industry. The beamline was based on the proven SX-700 monochromator Max IV Laboratory Being one of two national laboratories in Sweden, The Max IV Laboratory, situated in Lund, is operated by the Swedish Research Council and Lund University. maxiv. MAXIV. In the past two years the project organisation has been focused on phase II of the MAX IV Laboratory development, aiming to raise the number of beamlines in operation to 16. With more than 30 years of experience operating the MAX I-III facilities, it is now operating MAX IV, which was inaugurated 2016. The 3 GeV electron storage ring of the MAX IV laboratory is the first storage-ring-based synchrotron radiation facility with the inner surface of almost all the vacuum chambers along its Aug 11, 2025 · FragMAX is a user facility for crystallographic fragment screening at the BioMAX beamline at MAX IV Laboratory. Aug 28, 2025 · Research in a wide range of disciplines – magnetism, materials science, nano-science, heterogeneous catalysis, corrosion science, polymer science, to name but a few – is in strong need of improved surface imaging techniques with structural, chemical, electronic, and magnetic contrasts at spatial resolutions in the nanometer range. It is official! Olof Karis has been appointed Director of MAX IV. 5 GeV storage ring, and a linear accelerator that acts as both a full-energy injector to the rings and a driver for the Short Pulse Facility Aug 10, 2021 · This work is an overview of the multi-modal hard X-ray nanoprobe beamline at the MAX IV Laboratory. This is the brightest synchrotron source in the world, inaugurated 21 June 2016. The synchrotron facility is created by FOJAB architects, and Snøhetta has designed the 19 The MAX IV facility is based on new technology and scientific theories that have been developed at the Lund-based MAX Lab since the early 1980s. Oct 18, 2018 · Sweden’s national synchrotron light facility, the MAX IV laboratory, was opened in 2016 and is the world’s brightest synchrotron light facility. ” As compared to other projects discussed, the design process for the MAX Lab IV landscape presents a clearer (or perhaps just more articulated) example of how computational design methods can improve design development. Jul 7, 2023 · 1. 5 and 3 GeV) and a short pulse facility delivering light from UV to hard X-ray (4 eV–40 keV). MAX IV opened on June 21st, 2016, and the facility has a 25-year maintenance contract with MAX IV Laboratory | 10,606 followers on LinkedIn. Larsson Head of Industrial Relations, MAX IV Laboratory, Lund University, Lund, SwedenCorrespondence magnus. MAX-lab Sep 15, 2025 · Facility Tour: Explore MAXIV Laboratory Join us for an exclusive tour of MAX IV Laboratory, Sweden’s pioneering double-ring synchrotron light source and home to the world’s first 4th generation storage ring. The synchrotron facility is created by FOJAB architects, and Snøhetta has designed the 19 hectares landscape park. Introduction FlexPES is a soft X-ray (40–1500 eV) beamline at the 1. , 1999 ). MAX IV Laboratory has operated successfully for more than 30 years and is currently commissioning and operating the new MAX IV synchrotron facility in MAX IV Laboratory Lund University Phone +46462229872, +46462224710 Website http://www. With more than 30 years of experience operating the MAX I-III facilities it is now commissioning MAX IV, which will be inaugurated 21 June 2016. [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). Swedish national facility providing researchers with bright X-rays to make the invisible visible | MAX IV Laboratory is a national synchrotron Mar 18, 2024 · MAX IV Laboratory is a Swedish national synchrotron laboratory that has operated as a user facility since 2016. 5 GeV and a The MAX IV Laboratory, through the previous MAX-lab facility, has been offering synchrotron light to a broad international research community for more than 30 years. MAX IV currently has 16 experimental stations used by both universities and industry with room The hard X-ray nanoprobe of Max IV – NanoMAX – is designed to take full advantage of MAX IV’s exceptionally low emittance and the resulting coherence properties of the X-ray beam. One of the accelerators, the 3 GeV storage ring, is the world See who MAX IV Laboratory has hired for this role No longer accepting applications Lund University was founded in 1666 and is repeatedly ranked among the world’s top universities. [8] Its design [9] [10] and planning was 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. The MAX IV site is a green site, and the image of the meadow vegetation on sloping hills as a recreational area is setting a Jun 21, 2016 · MAX IV – the most modern synchrotron radiation facility in the world – is now ready to open. Swedish National Synchrotron Radiation Facility. in/eckZJdNq #xrays #sweden #sverige #maxiv MAX IV, located in Lund, is a Swedish national research facility inaugurated in 2016. MAX IV Laboratory has operated successfully for more than 30 years and is currently commissioning and operating the new MAX IV synchrotron facility in 马克斯四号实验室。MAX IV 实验室是一个瑞典国家级的同步辐射设施，包含三种不同特性的加速器。其中一个加速器是能量为3GeV的储存环，它是世界上第一个第四代储存环，并率先使用多弯无色散光学通道（multibend achromat）结构来提供超高亮度X射线。MAX IV 力求保持在当前及未来跨学科用户社区研究 . It provides simple workflows for large-scale crystal preparation, data collection and analysis. Here you will find Lund University’s latest annual report (in Swedish only). MAX-lab supported about 1000 MAXPEEM, a dedicated photoemission electron microscopy beamline at MAX IV Laboratory, houses a state-of-the-art aberration-corrected spectro-scopic photoemission and low-energy electron microscope (AC-SPELEEM). [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 In 2026, MAX IV is a highly successful national research infrastructure. MAX IV Laboratory is a cutting-edge Swedish national laboratory that specializes in providing scientists with the most brilliant X-rays for their research. Due to its high brightness beams covering vacuum UV, VUV and X-rays, MAX IV is world-leading in some areas and worldclass in all others. The creation of a new public park rather than a fenced-in introverted research center makes a difference in the public realm. 5 GeV & 3 GeV and a Short Pulse Facility. The laboratory offers access to a range of beamlines and accelerators, enabling advanced experiments in fields such as materials science, nanotechnology, and environmental studies. The beamlines are situated on our 1. Photo: Felix Gerlach (Fojab & Snøhetta are exterior The MAX IV is the first part of a larger transformation of the area northeast of Lund aiming to turn agricultural land into a ‘Science City’. One of the accelerators, the 3 GeV storage ring, is the world’s first fourth-generation ring and pioneered the use of the multibend achromat lattice to provide access to ultrahigh brightness X-rays. Nov 11, 2021 · NanoMAX is the first hard X-ray nanoprobe beamline at the MAX IV laboratory. CERN Accelerator School: Vacuum for Particle Accelerators seminar: MAX IV laboratory vacuum systems Marek Grabski MAX IV vacuum team 13th June 2017 Lund, MAX IV Laboratory | 15,031 followers on LinkedIn. Our beamlines provide modern X-ray tools to address scientific questions with spectroscopy, diffraction and Sep 8, 2016 · MAX IV is a national laboratory operated jointly by the Swedish Research Council and Lund University. Its predecessor, Max-lab, has in part been moved to the new MAX IV, and the rest is being gradually closed down. The CoSAXS beamline at the MAX IV Laboratory is a modern multi-purpose (coherent) small-angle X-ray scattering (CoSAXS) instrument, designed to provide intense and optionally coherent illumination MAX IV 是一座借助同步辐射，研究粒子加速物理的瑞典国家实验室。实验室坐落于隆德，隶属于隆德大学，于2016年6月开始运行，将于2026年全面完工。预计每年将会有3000来自世界各地的研究人员，在这里从事物理，化学，生物，医药和材料科学研究。2009年4月27日，隆德大学、瑞典科学委员会、斯科 Apr 29, 2024 · MAX IV Laboratory as a Catalyst for Industrial-Academic Collaborations Magnus W. seas of May 10 2016. MAX IV Annual CoSAXS is a state-of-the-art SAXS/WAXS beamline exploiting the high brilliance of the MAX IV 3 GeV synchrotron. 5 GeV MAX II and the 700MeV MAX III, as well as constructing the new facility MAX IV, which will house a 1. In this paper we present the beamline optics design in detail, show the performance figures, and give an overview of the Annual reports MAX IV Laboratory is hosted by Lund University. SE 202 100 321 101 Jun 30, 2025 · BioMAX is one of two X-ray macromolecular crystallography beamlines at MAX IV Laboratory. With more than 30 years of experience operating the MAX I-III facilities, it is now commissioning MAX IV, which was inaugurated 21 June 2016. Science MAX IV in a nutshell The core activity of MAV IV Laboratory is to produce and deliver highly collimated x-ray beams to a portfolio of beamlines used by scientists in a wide variety of research fields. 5 GeV storage ring and the linear accelerator, which serves as the injector to both storage rings and to the short pulse facility which is used for fs X-ray pulse creation. 2016-04-21Accelerators Status MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. Located in the city of Lund in southern Sweden, the MAX IV Laboratory Landscape is designed with the aim of creating a functional landscape solution for the high-performance synchrotron radiation laboratory MAX IV. MAX IV is a next-generation[3][4] synchrotron radiation facility in Lund, Sweden. Max IV Laboratory - future light source MAX IV Laboratory is a Swedish national synchrotron radiation facility that comprises three accelerators with varying characteristics. The landscape is designed with the aim of creating a functional landscape solution for thi Sep 29, 2025 · MAX IV Laboratory Sweden’s synchrotron X-ray facility, the MAX IV Laboratory, is a national research infrastructure for research in fields such as biology, physics, chemistry, environmental science, geology, engineering, pharmaceuticals and cultural heritage, making it possible to study materials and molecules down to the atomic level. The material research MAX IV is a synchrotron light source facility in Lund, Sweden, in the northeastern quarter Brunnshög as part of an innovation district including ESS and Science Village. 5 GeV and 3 GeV) and a 3 GeV linac injector which also serves as a MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research. Research conducted at MAX IV, a Swedish national user facility, is supported by the Swedish Research Council under contract 2018–07152, the Swedish Governmental Agency for Innovation Systems 1. MAX IV is the world's first 4th generation synchrotron light source facility in Lund, Sweden. The MAX IV 3 GeV ring is the result of the dedicated efforts of many individuals over many years, both at MAX IV Laboratory and at a number of collaborating institutions, to whom we are deeply grateful. Snøhetta designed the surrounding 19 hectares landscape park, roads, front Plaza and courtyard. This ‘fourth-generation’ synchrotron light source is being replicated at research facilities around the world and attracts international scientists to Lund. We make the invisible visible. The accelerator consists of one full energy linear accelerator providing two storage rings at 1. MAX IV is the world's first 4th generation [6] [7] synchrotron light source facility in Lund, Sweden. Please find the reports below. hk5 1frdq vecl 2lf4 91 iko2 eyr1r cw sumg ze