MAX IV Graphics manual by Lund University

GRAPHICS MANUAL

Version | 3.0 | 2016

GRAFISK MANUAL | INLEDNING

INTRODUCTION MAX IV Laboratory is the worldâ&#x20AC;&#x2122;s leading facility for research based on synchrotron radiation. The aim of the graphic profile is to clarify and enhance this position. In order to build a correct image of MAX IV Laboratory and to make us quickly recognisable to the rest of the world, it is important that our graphic profile is managed in a correct and consistent way. Ultimately, this approach is also a confidence issue. The graphics manual describes the basic elements of our graphic profile (logo, typography, colours, graphic elements and image style) and how these are to be used. The manual also demonstrates what our graphic identity looks like in a number of applications. A clear graphic identity starts with us. Therefore, it is important that we together take responsibility for following the instructions in the graphics manual. If you have any questions about the graphic profile or the instructions in the graphics manual, please contact our communications office (for contact information, see page 26). Christoph Quitmann

GRAFISK MANUAL | BASREGLER

BASIC RULES MAX IV Laboratoryâ&#x20AC;&#x2122;s graphic profile is built on the following basic elements: logo, typography, colours, graphic elements and image style. In this section, we will present the different basic elements. Here you will find instructions on how these elements may be used and combined. The basic elements in themselves but also the way they interact make up the character of our graphic profile.

GRAFISK MANUAL | BASREGLER

LOGOTYPE There are two versions of the MAX IV Laboratory logotype – one with and one without the word “Laboratory”. The version without is to be used primarily. The version that includes “Laboratory” is to be used in cases where it would otherwise not be possible to determine that the material has been produced by MAX IV Laboratory. The logos are not to be modified in any way. Therefore, always use approved originals.

GRAFISK MANUAL | BASREGLER

LOGOTYPE MAX IV Laboratoryâ&#x20AC;&#x2122;s logo comes in three different colour schemes: grey/orange, grey, or white. The grey/orange logotype is to be used primarily. SIZE To guarantee clarity and legibility, the logo must not be made smaller than allowing it a width of 16 mm (see illustration to the left). Be extra careful about the size of the logo when placing it on an uneven material, such as textiles.

Free zone

16 mm

FREE ZONE For the logo to be displayed as clearly as possible there must always be an area around the logo that is free from text and other graphic elements. This area is called a free zone, and must be at least as wide and high as the Roman numeral I of the logo. The height and the width will therefore vary depending on the size of the logo. PLACEMENT The logo is best placed to the left or the right (see examples on pages 17â&#x20AC;&#x201C;21). If the logo is to be placed directly under an image, choose an image, or a part of an image, that is uncluttered and without a lot of detail.

GRAFISK MANUAL | BASREGLER

COLOURS

CMYK: 0-0-0-100

PMS 376 CMYK: 54-0-100-0 RGB: 132-189-0 HTML: #82be00 NCS: S 0580-G30Y

PMS 137 CMYK: 0-35-90-0 RGB: 248-179-34 HTML: #fea901 NCS: S 1070-Y20R

10 %

20 %

40 %

80 % CMYK: 0-0-0-0 (white)

60 %

BASIC COLOURS

Please note that different colour schemes are used in different contexts:

PMS COOL GRAY 10 CMYK: 0-0-0-65 RGB: 134-134-137 HTML: #6e6e6e NCS: S 5500-N OK to use fixed brighter versions of this colour. PMS 877

Metallic (Silver)

GREY COLOURS FOR DIGITAL APPLICATIONS

HTML: #EBEBEB

HTML: #9e9e9e

HTML: #999999

HTML: #8e8e8e

HTML: #6e6e6e

MAX IV Laboratory’s colours are white, green, orange, grey and black. When it comes to digital applications (such as the web), a specific set of colours is to be used.

HTML: #3e3e3e

• PMS is used when printing with 1 or more than 4 colours • PMS metallic (silver) is used on high quality products and printed materials • CMYK is used for 4-colour prints and always for digital prints • RGB is used for PowerPoint • HTML (Hex) is used for websites and apps • NCS is used on painted surfaces

GRAFISK MANUAL | BASREGLER

COLOURS The illustration to the left shows how much the colours are to be used in relation to each other. White is the dominant colour of MAX IV Laboratoryâ&#x20AC;&#x2122;s graphic profile. Green, orange and grey are complementary colours. Black may also be used, but mainly for text. Read more about text colours on page 8. Digital applications may use a slightly less white graphic expression.

GRAFISK MANUAL | BASREGLER

Calibri Calibri Regular

ABCDEFGHIJKLMNOPQRSTUVWXYZÅÄÖ abcdefghijklmnopqrstuvwxyzåäö1234567890 Calibri Italic

ABCDEFGHIJKLMNOPQRSTUVWXYZÅÄÖ abcdefghijklmnopqrstuvwxyzåäö1234567890 Calibri Bold

ABCDEFGHIJKLMNOPQRSTUVWXYZÅÄÖ abcdefghijklmnopqrstuvwxyzåäö1234567890 Calibri Bold Italic

ABCDEFGHIJKLMNOPQRSTUVWXYZÅÄÖ abcdefghijklmnopqrstuvwxyzåäö1234567890

FONT The font for all materials produced by MAX IV Laboratory is Calibri. This is a standard font in both Macs and PCs and is to be used for all types of applications. Depending on the type of text, and whether the application is analogue or digital, different cuts (variants) of the Calibri font are to be used. The tables below provide some guidance: ANALOGUE APPLICATIONS Font Cut Headings Calibri Regular (upper case) Subheadings Calibri Bold Lead paragraphs Calibri Regular Body text Calibri Regular Captions Calibri Italic or Bold Italic DIGITAL APPLICATIONS (WEB, APP) Typsnitt Skärning Headings Calibri Bold (versal eller gemen) Subheadings Calibri Bold Lead paragraphs Calibri Regular Body text Calibri Regular Captions Calibri Bold Italic FONT COLOURS Orange, green or grey are the approved font colours for headings and subheadings. Grey is the preferred font colour for all other types of text. White (negative) and black may also be used for text.

GRAFISK MANUAL | BASREGLER

GRAPHIC ELEMENTS The two rings (which are also part of the MAX IV Laboratory logo) can be used as a freestanding graphic element. The rings can be used as is, or together with a picture placed between the rings. The rings can be produced in the following colours: white (negative), orange, green or silver (metallic). The rings can be cropped within this area.

Please note that the rings may only be cropped in accordance with the illustration to the left. Apart from the permissible cropping demonstrated here, the rings may not be modified in any other way. Therefore, always use approved originals. These can be accessed by contacting the communications office at MAX IV (see contact information on page 26).

Example of application of a graphic element.

GRAFISK MANUAL | BASREGLER

IMAGE STYLE Photographs are an important component of our graphic profile. Therefore, as far as possible, we are only to use images that have been taken in accordance with our specific image style, which combines images from four different categories: Concept, People, Technology and Architecture. Note the image style instructions for each category.

CONCEPT: Conceptual photographs are always to be taken by a professional photographer. Aim for â&#x20AC;&#x153;whiteâ&#x20AC;? colour images (see example above).It is also important that the images have an aesthetic rather than descriptive value.

PEOPLE: Photographs of people are to consist of a blend between colour and black/white images. The images are to have an authentic and documentary feel to them. They are to capture collaboration, a sense of community, activity, precision and intensity.

GRAFISK MANUAL | BASREGLER

TECHNOLOGY: Photographs of technology are to have metal and foil as their theme. We encourage the inclusion of green or orange details and a focus on the interaction between technology and people. The images do not need to be descriptive but may well be used to show details or objects photographed from interesting and somewhat unexpected angles.

ARCHITECTURE: Architectural photographs are to be taken from exciting new angles that enhance the interior, exterior and landscape architecture. Detailed images are encouraged. High quality computer images may also be used.

GRAFISK MANUAL | BASREGLER

USE

USE USE

INVEST

ILLUSTRATIONS AND INFOGRAPHICS A clear and consistent graphic profile requires that all illustrations and infographics also have a specific image style, consistent with the other components of the graphic profile for MAX IV Laboratory. Therefore, when you are to design illustrations and infographics, always take the following aspects into account:

WORK

WORK WORK WORK

STUDY

STUDY STUDY

STUDY

• Always use the correct font and cut (see page 8) • Only use approved colours (see pages 6–7). • In illustrations, brighter variants of the colour green may be used • Strive for a minimalist look (see illustration example to the left) For any questions concerning designing complex illustrations or advanced infographics, please contact the communications office at MAX IV. This is particularly important if the material is to be disseminated to a wide audience or be used to profile all of MAX IV Laboratory. Illustrations linked to science or specific research may be exempted from the requirements above.

GRAFISK MANUAL | APPLIKATIONER

APPLICATIONS This section demonstrates how the basic elements of the graphic profile are to be applied in various forms of communication. If the material which you are about to develop is not included in this section, feel free to contact the communications office at MAX IV.

GRAFISK MANUAL | APPLIKATIONER

Date:

MAX IV Laboratory Lund University P.O Box 118 SE-221 00 Lund, Sweden Visiting address: Fotongatan 2, Lund Phone: +46 (0)46-222 98 72 www.maxiv.se

Your Ref:

Christoph Quitmann

BUSINESS CARDS The back of the MAX IV Laboratory business cards is either orange or green. You may choose for yourself which one you would prefer.

Our Ref:

Director

Mobile: +46 (0)766-32 33 14 christoph.quitmann@maxlab.lu.se

Business card, front

Create your own business cards by using the template available at http://www.mediatryck.lu.se. STATIONERY AND ENVELOPES Always use an approved Word template when writing letters. EMAIL SIGNATURES Emails are to end with an approved email signature (see example to the left).

Business card, orange back

Business card, green back

Christoph Quitmann Director MAX IV Laboratory Lund University P.O Box 118 ,SE-221 00 Lund, Sweden Visiting address: Fotongatan 2, Lund Phone: +46 (0)46-222 98 72

MAX IV Laboratory Lund University P.O Box 118, SE-221 00 Lund, Sweden

MAX IV Laboratory Lund University P.O Box 118, SE-221 00 Lund, Sweden Visiting address: Fotongatan 2, Lund Phone:+46 46 222 98 72 info@maxlab.lu.se www.maxlab.lu.se

Mobile: +46 (0)766-32 33 14

www.maxiv.se

Email signature

Stationery A4 and envelope C4

Org .No. 000000000 VAT No. SE 00000000000

GRAFISK MANUAL | APPLIKATIONER

Introduktion, titel Namn och tidpunkt

COgitANti mihi sAEPE NUmERO Et mEmORiA

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Conclusion

Authors

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FIlIp SzCzepAnkIewICz Department of medical Radiation Physics, Lund University, Lund, sweden; Department of Clinical sciences, Diagnostic Radiology, Lund University, Lund, sweden. JIMMY lätt Department of Clinical sciences, geriatric Psychiatry, Lund University Lund, sweden. MARkuS nIlSSon Department of medical Radiation Physics, Lund University, Lund, sweden. DAnIelle vAn weSten Department of Clinical sciences, Diagnostic Radiology, Lund Uni-

HåkAn wIDneR Department of Clinical sciences, Neurology, Lund University, Lund, sweden; Department of Neurology Lund, skåne University hospital, Lund, sweden. CHRISteR nIlSSon Department of Clinical sciences, geriatric Psychiatry, Lund University Lund, sweden. oSkAR HAnSSon Department of Clinical sciences, Neurology, Lund University, Lund, sweden; Department of Neurology Lund, skåne University hospital, Lund, sweden.

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Bengt eRIkSSon Department of Clinical sciences, Neurology, Lund University, Lund, sweden.

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2011

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POWERPOINT PowerPoint presentations are to be produced using the existing template, which includes 6 different slide templates (see illustration to the left). Some helpful tips • Avoid using the slides as a script. Instead, communicate brief and interesting messages. • Divide your material into several slides rather than including it all on one. • Adapt the content of your presentation to your target audience. • If possible, try to vary the look of the slides. • Only include pictures in JPG format and in RGB colours. An image resolution of 72 ppi (regular display resolution) is sufficient.

GRAFISK MANUAL | APPLIKATIONER

HIGHLIGHTS AND ACTIVITIES 2011-2012

CONTENTS

BROCHURES Printed materials are to be produced taking due account of the instructions in the graphics manual with regard to logotype, typography, colours, graphic elements and image style.

4. Introduction by the Director 6. This is the MAX IV Laboratory THE MAX IV PROJECT 8. The MAX IV Building Project 12. The Stability of MAX IV 14. The MAX IV Accelerator Project 18. The MAX IV Beamlines SCIENTIFIC HIGHLIGHTS 22. New Tools for Old Molecules 24. Ambient Pressure XPS at MAX II 26. XAS Applied on Environmental Issues 30. Detecting Photons 32. Highlights from the I911 MX Beamlines 35. Hedgehog Spin Texture and Berry’s Phase Tunability 38. Ambipolar Doping in Graphene Controlled by Ge Intercalation 40. The New Multipurpose SAXS Beamline at I911-SAXS 43. FEL – Tests Today and Outlook for Tomorrow

Use the examples shown here for inspiration. For our printed materials to appear homogenous and to facilitate production, you must always use approved InDesign templates.

CURRENT STATUS OF THE MAX IV LABORATORY 46. MAX-lab Rings and Accelerators 48. MAX-lab Beamlines 54. The Association for Synchrotron Light Users at MAX-lab – FASM FACTS AND FIGURES 56. Facts and Figures

Front cover photograph: A sample surrounded by eight electromagnets in the octupole end station at beamline I1011.

Brochure A4, front

46 mm

MA X IV | HIGHLIGHTS AND AC TIVITIES 2011 - 2012 3

Brochure A4, example spread

HIGHLIGHTS FROM THE I911 MX BEAMLINES

A. Labrador a, J. Unge a, R. Appioa, F. Fredslund a, T. Ursby a, M. Thunnissena,b a. MAX IV Laboratory, Lund University, Lund, Sweden b. Department of Biochemistry and Structural Biology, Lund University, Sweden

Two exciting projects at the Cassiopeia beamline show the importance of synchrotron radiation in the determination of protein structures. One is investigating copper transport across the cell membrane acquiring knowledge that can lead to new therapies for diseases caused by genetic defects. It can also serve as a base for the development of a new class of antibiotics. Another project examined the structure of a human protein, glypican-1, which provides important information about diseases affecting the growth of the human body. Structural investigations of proteins are a fundamental part of modern life-science research. Since proteins are involved in virtually all processes that make life, they are essential for all organisms. The many different processes that proteins are involved in stretch from the way that replication (DNA copying) occurs, through the way that cells develop and specialise to the maintenance and defense of our bodies, or the way we receive signals from the outside world (vision, touch, smell…). The functions of proteins are affected in many different diseases, and infectious agents such as bacteria or viruses use proteins to help them invade our bodies. Most of our modern-day medicines bind to proteins, whether from our own bodies or from these “foreign invaders”. Apart from the many different functions and tasks that proteins perform, they also have many shapes and sizes, from small enzymes that function alone to proteins that form huge complexes with other important biological molecules such as RNA or DNA. They can be soluble – floating freely in or between cells – or tightly embedded in cell membranes. Because of this wealth of variety in the proteins themselves and the processes they are involved in, it is important to study these important molecules in depth. X-ray crystallography is one of the most powerful techniques to study proteins and their complexes. The proteins are crystallised and subsequent exposure by X-rays can reveal minute details of the structure of these molecules. These structural details make it possible to study the function of the proteins, how they interact with their partners or how they catalyse reactions. Synchrotrons play an essential role in the way that data is collected for these studies. They provide a highly intense X-ray beam that can be used to study even extremely small samples.

are essential for functional studies that lead to better understanding of the specific roles these proteins play. The first example is the structure of the copper-transporting PIB-type ATPase (Cu+-ATPase), a membrane protein, investigated by the group of Prof. Poul Nissen in Aarhus [1]. This particular protein is important for maintaining the correct amount of copper within cells. Copper is needed for many different processes (e.g. respiration or translation) and it is thus an essential metal that is required by living cells. However, too much copper is very toxic; thus the levels of copper within cells need to be tightly regulated and excess copper should be removed from a cell. Cu+-ATPases are involved in the active pumping of excess copper atoms through the membrane and out of the cell. Mutations in these regulator proteins in humans can lead to disorders such as Menke’s and Wilson’s disease, and imbalance in their regulation is linked to Alzheimer’s disease and resistance to cancer chemotherapy. Continued on next page...

Figure 1. Structure of the PIB type Cu+-ATPase from Legionella pneumophila revealed by X-ray crystallography at the I911-3 beamline at MAX-lab.

MAX IV Laboratory Lund University P.O Box 118 SE-221 00 Lund Sweden

Two recent examples of structures revealed by using data from beamline I911 at MAX-lab are prime examples of both the diversity of proteins and also how the structural details

MA X IV | HIGHLIGHTS AND AC TIVITIES 2011 - 2012

Brochure A4, example spread

Tel: +46 (0)46 222 98 72 www.maxlab.lu.se MA X IV | HIGHLIGHTS AND AC TIVITIES 2011 - 2012

Brochure A4, back

46 mm

GRAFISK MANUAL | APPLIKATIONER

SynkrotronljuS avSlöjar vaSaS kemi

SKARPASTE LJUSET I VÄRLDEN

I linjäracceleratorn sätter man fart på elektroner så de närmar sig ljusets hastighet. De förs sedan in i lagringsringen där man böjer deras bana med hjälp av magneter. Vid avböjningen avger elektronerna synkrotronljus som är ett oerhört intensivt ljus över ett brett våglängdsintervall. Ljuset leds ut till forskningsstationerna genom särskilda strålrör och det är här som själva experimenten sker.

Vi gör det osynliga synligt

Strålrör I811 – Röntgenabsorption

Regalskeppet Vasa har nu legat många år i sin museibyggnad men i dess inre pågår kemiska processer som hela tiden måste övervakas. Med hjälp av synkrotronljus har det varit möjligt att kartlägga vad som händer. Först reste man med träprover från skeppet till synkrotronljusanläggningen Stanford Synchrotron Radiation Lightsource i Kalifornien. Efter det att den stora lagringsringen MAX II tagits i bruk går många av proverna till MAX-lab – och det är också analyserna där som visat vad man framför allt måste ha kontroll över för att kunna bevara skeppet.

MAX IV-laboratoriet i Lund öppnade för användare 1987 (då under namnet MAX-lab). Idag består laboratoriet av tre s.k. lagringsringar, MAX I-III, som är i drift. Samtidigt byggs nästa generations anläggning, MAX IV, som bygger på ny teknik och vetenskapliga teorier som utvecklats vid MAX-lab under årtiondena. MAX IV blir den modernaste synkrotronljusanläggningen i världen och här kommer man att kunna undersöka molekylära strukturer och ytor mer detaljrikt än vad man tidigare kunnat göra. Det ger möjlighet till nya upptäckter och ny kunskap inom många forskningsområden, exempelvis inom materialvetenskap, medicin och miljöforskning. Idag kommer årligen cirka 900 användare, forskare från både svenska och internationella användargrupper, för att göra experiment på laboratoriet. När MAX IV är fullt utbyggd räknar vi med att anläggningen kan ta emot cirka 2000 tillresta forskare om året. På MAX IV kommer det att finnas två lagringsringar, med olika storlek, forskningsinriktning och prestanda. Den stora ringen kommer att ha en omkrets på 528 meter, i storlek med Colosseum i Rom. Fullt utbyggd kommer MAX IV att ha plats för ett trettiotal strålrör. MAX IV har flera finansiärer som bidrar till olika delar. Vetenskapsrådet, Lunds universitet, Vinnova, Region Skåne, Knut och Alice Wallenbergs stiftelse samt ytterligare 11 svenska universitet är de som huvudsakligen bidrar till anläggningen. Lunds universitet är MAX IV:s värduniversitet. Invigning av den nya anläggningen blir den 21 juni 2016, den ljusaste dagen på året för att inviga det skarpaste ljuset i världen. Välkommen att bekanta dig med vår verksamhet redan idag. I den här foldern finns några exempel på den forskning som bedrivits vid MAX-lab/MAX IVlaboratoriet genom åren.

Träprover från regalskeppet Vasa som analyserats på MAX-lab. Vasa kommer att finnas kvar under en överskådlig framtid. Men det är viktigt att vi förstår de kemiska processer som sker inne i träet så att adekvat behandling kan sättas in i tid.

En storleksjämförelse mellan dagens anläggning och den nya MAX IV-anläggningen.

Brochure A5, front

42 mm

vad som händer med vasa är av intresse för hela världen – och inte bara därför att det unika skeppet är så välbevarat. Det råkar vara ett av de första gamla skepp man bärgat och lagt upp på land. Dessutom har naturvetenskaplig expertis kopplats in på ett tidigt stadium för att samarbeta med museikonservatorerna. kartläggningen av vasas inre kemi och vilka konsekvenser sådana kunskaper haft för skeppets konservering har blivit en förebild för andra museer.

Svavelväte i skrovet när vasa sjönk den 10 augusti 1628 hamnade det på en soptipp där köksavfall och latriner rann ut. Det var en extremt syrefattig miljö. Desto rikare var vattnet på svavel som i form av svavelväte bands till skrovets trä. Skeppsmaskar förekommer inte i östersjöns bräckta vatten och därför var båten så välbevarad när den lyftes från bottnen 1961. På ett kilo trä gick det ett och ett halvt kilo vatten, och i sjutton år sprayades båten med en blandning av vatten och PeG (polyetylenglykol). alkoholen ersatte till stor del det vatten som dunstade bort vid torkningen och förhindrade sprickbildning. År 2000 hände något med skeppet som ingen hade förutsett. Sommaren hade varit regnig men följdes av en varm septembermånad. okända kemikalier började tränga ut ur träet i form av mycket små glittrande saltkristaller. kemiska analyser visade att det var utfällningar av sulfatsalter, järnsulfat, gips och svavel. luftens syre hade börjat oxidera svavel vilket ledde till att man misstänkte att svavelsyra bildades inne i träet.

Brochure A5, example spread

Antikropp tAgen på bAr gärning Beamline I911 – Proteinkristallografi

Foto: Gunnar Menander.

Det är känt att kroppens immunförsvar löper amok och angriper friska vävnader vid reumatiska sjukdomar. Nu har den tändande gnistan hittats i en liten proteinkristall av biokemisten Marjolein Thunnissen på MAX-lab. Rönen har publicerats i ansedda The Journal of Experimental Medicine och kan leda till säkrare diagnostik och större insikter i själva sjukdomsförloppet. Marjolein Thunnissen vid strålrör I911.

bakom bedriften står ett internationellt forskarteam. på bMC, biomedicinskt Centrum i Lund, har en av forskarna, rikard Holmdahl, arbetat med en stam genetiskt förändrade möss. Mössen drabbas av reumatoid artrit, dvs ledgångsreumatism som i sin allvarligaste form kan ge missbildade och rörelsehandikappade leder. om antikroppar från dessa djur överförs till normala möss utvecklar även dessa reumatoid artrit. – Det handlar om antikroppar som binder vid en peptid som innehåller en ovanlig aminosyra: citrullin. Man har misstänkt att citrullin är det egentliga målet för antikropparna. Jag har försökt ta reda på hur strukturen ser ut hos denna peptid med eller utan citrullin och även undersökt hur hela komplexet av antikropp och peptid ser ut, säger Marjolein thunnissen och fortsätter: – De broskartade mjukdelar i lederna som angrips av antikropparna kallas kollagen ii. Det 16

Brochure A5, example spread

består av långa molekyler som ligger flätade kring varandra. Vi hade förväntat oss att peptiden skulle ha en likartad struktur men den ser helt annorlunda ut. Den sitter punktvis spridd på kollagenet och drar till sig stora mängder antikroppar. och vi kunde visa att det verkligen är citrullin och ingen annan del av peptiden som antikropparna söker sig till. För att diagnosticera reumatiska sjukdomar tar läkarna ett blodprov och letar efter s k reumafaktorer. Det är dock lättare att avgöra att patienten inte är reumatiker än att han är det; reumafaktorerna uppträder nämligen också vid andra inflammatoriska processer än reumatism. De nya rönen kan leda till förbättrade markörer och en säkrare diagnos. De väckte också stor uppmärksamhet när de blev kända våren 2009. Man bestämmer strukturen hos proteiner genom att ta fram dem i kristallform. när mjukröntgenstrålar från synktronljusringen MAX ii 17

bryts i olika vinklar genom kristallen får man information om proteinets struktur. Men det finns tusentals komplexa proteinmolekyler i den mänskliga kroppen, och det finns inget snabbköp att inhandla dem på. Forskarna måste själva odla proteinkristallerna. Därför är MAX-lab utrustat med ett särskilt laboratorium som förser hela Lunds universitet med kristaller – även sådana som ska analyseras i andra sammanhang och med annan utrustning. Tre robotar arbetar i laboratoriet. En framställer lösningar efter de specifikationer den får. Ur dessa lösningar uppstår proteinkristallerna. En annan gör oerhört små droppar av proteinet. I det sista stadiet dras vatten ur dropparna och gör den mättade lösningen övermättad. Nu kan i bästa fall mikroskopiska kristaller fällas ut. Den tredje roboten tar bilder av kristalliseringen. Det räcker inte med skicklighet. Kristalliseringsprocessen låter sig inte så lätt förutsägas.

Lösningarna finns i 96 fack på en plastbricka. Om man har tur kan man få en eller ett par kristaller från en sådan bricka. Att få fram användbara kristaller kan ta allt från ett dygn till månader eller år! En färdig kristall kan variera i storlek från några hundradelar av en millimeter till en millimeter. Man måste vara fingerfärdig för att överföra den till provstationen. Kristallen fångas i en liten snara. Även i ett mikroskop kan kristallen ibland vara på det synbaras gräns. Det strålrör där kristallerna undersöks kallas Cassiopeia efter stjärnbilden med samma namn. Orsaken är att en av finansiärerna till just detta strålrör är Köpenhamns universitet. Halvvägs mellan Köpenhamn och Lund ligger Hven där Tycho Brahe var verksam på 1500-talet. En av de stjärnor som denne undersökte var en supernova som flammade upp i konstellationen Cassiopeia.

Contributors Ihitaqu ibuscip sandam quodi ressi volum facea dolorro te nusda nisciis asi te lit et ut doluptas abo. Usdae vid que labo. Mus acias nonecte nis sit vel mosamusam id et, volorup tatassequiam voluptam repratur, suntem et utectiam, to eosae nosam, ipsusdam essit estoritaes as apist, tecto blab il eos mod qui nost, coreptiae diciis sit quo qui ut que remquae santinu llatem qui sus di ulloreiuntis evellab orenimi nvellaut quo ex es et minulpa voluptas nonsequas apidelitis int as ideliqui ut am et quiatus

MAX IV-laboratoriet Lunds universitet Box 118, 221 00 Lund Tel: 046-222 98 72 www.maxlab.lu.se

Brochure A5, example spread

Brochure A5, back

42 mm

GRAFISK MANUAL | APPLIKATIONER

COgitANti mihi sAEPE NUmERO Et mEmORiA

StatuS report on Stability work. a summary of status, philosophies and policies defined. September 2011.

Conclusion

Authors

YulIA SuRovA Department of Clinical sciences, Neurology, Lund University, Lund, sweden; Department of Neurology Lund, skåne University hospital, Lund, sweden.

Introduction Num sus dolori am dolore modis iniae et iunt quos eosam quis niscia plaut veliqua tibeaqui sim inis ipis prem rendenda provit, suntorae.

Inctemoles essitio Faciet estibus et eaquaspis es rem quas nem dolupta dolor moles eictio. Ut

ut rem quod et pro el ium iunt. Nienda nobistrum fuga.

Ritate nos aut eatemqui Ovit lites exceatquam, ommolor re rerissit excersped mi, el incto molorempor ma verrum qui dolentiam volupta posEvero voluptatia nus. Nienda nobistrum fuga.

versity, Lund, sweden; Center for medical imaging and Physiology, skane University hospital, Lund, sweden. Bengt eRIkSSon Department of Clinical sciences, Neurology, Lund University, Lund, sweden. HåkAn wIDneR Department of Clinical sciences, Neurology, Lund University, Lund, sweden; Department of Neurology Lund, skåne University hospital, Lund, sweden.

The front and back are to be designed in accordance with the examples shown here.

CHRISteR nIlSSon Department of Clinical sciences, geriatric Psychiatry, Lund University Lund, sweden. oSkAR HAnSSon Department of Clinical sciences, Neurology, Lund University, Lund, sweden; Department of Neurology Lund, skåne University hospital, Lund, sweden.

ovid unt quaspie nempore reperitibus debitature (xxxx)

For our printed materials to appear homogenous and to facilitate production, you must always use approved InDesign templates.

Dolorec erferum temporem Cipsant

ovit lites exceat quam molor (XXX)

Nobistrum

4 500 -4 4 000 Rat facesperspe

6 425

Cum rem sitiata

1 948

Quis com eos

1 847

Nienda nobisrum

5 850

Doluptatem volupta

3 873

Faciet estibus

2 768

Ventius es aspient

753

Eosam quis niscia

3 835

Quidebit

372

1 104

3 500

3 000 463 2 500 2 544 2 000

Report A4, front

1 500

1 000

500

hendae lique volessi molorat dit dolore nis mi, seditio dolupta sum eate nobitios et eos delenem perumquis eumquisquam. 0 2010

Method Num sus dolori am dolore modis iniae et iunt quos eosam quis niscia plaut veliqua tibeaqui sim inis ipis prem rendenda provit, suntorae. Faciet estibus et eaquaspis es rem dolor moles eictio. Ut quam, ut doluptatiore pa volutem quiatinit velique experchit liquas explige es earum voluptu.

Rat faceperspe ande odi cum rem sitatia volupta que veris dempore rrovid ma volor apere occae volupta testorati ut eatur rerferaes nus nonsequunt es velicit impossim ventius es aspient, con net aspedit, quis con eos modit audisin ihictest ipiducietur aut volutem quia-

tinit ut rem quod et pro el ium iunt. Ovit lites exceatquam, ommolor re rerissit excersped mi, el incto molorempor ma verrum qui dolentiam volupta posEvero voluptatia nus. Nienda nobistrum fuga. Am, officius qui doluptatem volupta tiscieni susapid quia dolupic te. Cipsant quate porersp iendiatur.

Results Num sus dolori am dolore modis iniae et iunt quos eosam quis niscia plaut veliqua tibeaqui sim inis ipis prem rendenda provit, suntorae.

Inctemoles essitio Faciet estibus et eaquaspis es rem quas nem dolupta dolor moles eictio. Ut quam, doluptatiore pa aspient volutem quiatinit velique experchit liquas explige nderibus

2011

References Ritate nos aut eatemqui

es earum voluptu. Rat faceperspe ande odi cum rem sitatia volupta que veris dempore rrovid ma volor apere occae volupta testorati ut eatur rerferaes nus nonsequunt es velicit impossim ventius es aspien, quis con eos modit. Ovit lites exceatquam, ommolor re rerissit excersped mi, el incto molorempor ma verrum qui dolentiam volupta pos. Nienda nobistrum fuga. Am, qui doluptatem volupta tiscieni susapid quia dolupic te Cabore, seriorendis vel-

litem nulparum ent lam comnimaio volecto moditat iuntiis.

Ritate nos aut eatemqui Bus sandi iditate modipis ut volupta temque molectes none quas am, conse coreper ehenest voloreh enditi corem aut exerum quo magniam expersped minciaerum debitae eaquidiam exerem. At fugit etur? Qui consequi officiet exercient estiuntur aut aut restior.

REPORTS Reports are to be produced taking due account of the instructions in the graphics manual with regard to logotype, typography, colours, graphic elements and image style.

unt, si dolupie nitatquam sapit eos iur sequi cores sequo eturem qui dem esciasp erunt, que volumen imodis min et maximus mi, int aut as etur, corro eumquis quaeptur aut res eumquo dolorec erferum nosam es dello doluptae nis et et derum que dolorit ad ut iliscil luptios nobitatem viti unt plam nobist, temporem eaqui omnit etur? et prest del etur mil mo expeleseque niat facimet urendae vent et laborerum id minimilit expliqui quo consequ issitis re soluptaturi cus eum quaspel in pa prati core eritatist moloritas dolupti nturibearum laborat emporem fugia nem ut qui occae pa quatur? officatus abore, ut as doloreicia sumqui commoll accuptatur? id essit andelia voluptam dolorum incimpo rempelitem ipsa venda nobit fuga. Omniet aborro modipsapici cus estenis. tur sum facitio dolum quamus repta vel mo oditibus earum ipsunto quia intio commoluptur suntem nem. Ovid unt quaspie nempore hendige ndebitature, ulparum ear-

chiciet omni as si reperitibus eligendae reris doluptatis voloriatum ea vitatatest fugiaspit endi occus ex est aspel et fugit, opta consendebis nectem re et iume vel molut es volorem porenis ea et ute dusam et fugia nonse nulluptatur alictur ament, simus non con porem. Apere et fuga. Et eius acea as estrum, conem vel enienis que landae atempor uptatur? tius el illorep taepuda nducia dit estisitiis am ilibus ex expe voluptibus dolupta turestinus etur re sum as rehenis torerov itibus escium volupta nobit ime doluptio essitat et ut aut lam, o Catecepressit autem voluptat experum num vere plis qui blaut volupta. et eius acea as estrum, conem vel enienis que landae atempor uptatur? Equaspelendit ipsum nus eosto modis ullorro ipsapide doloresent, natia provite sum sum ati ut ma consequae lignam ut re pro dicia volorent eossi unt autempe lecaest, vent volor sunt veratio nserferci.

SCIENTIFIC POSTERS Scientific posters are to be produced taking due account of the instructions in the graphics manual with regard to logotype, typography, colours, graphic elements and image style. Scientific posters traditionally contain a lot of facts, which might make it difficult for the viewer to understand and absorb the material. Therefore, try to reduce the amount of text and images, and adapt the layout to focus on the main message.

Scientific poster

MAX IV Laboratory Lund University P.O Box 118 SE-221 00 Lund Sweden Tel: +46 (0)46 222 98 72 www.maxlab.lu.se

Report A4, back

GRAFISK MANUAL | APPLIKATIONER

Making the invisible visible

vi Gör det osynliGa synliGt

ROLL-UPS Rollups are to be produced taking due account of the instructions in the graphics manual with regard to logotype, typography, colours, graphic elements and image style. To ensure that all rollups have the same production style (thereby making them uniform in terms of height, width and fabric, etc.), please contact Media-Tryck when producing rollups.

MaX iv will be the most modern synchrotron radiation facility in the world, enabling the investigation of molecular structures and surfaces in more detail than ever previously possible.

www.maxlab.lu.se

Roll-ups 850x2000 mm

MaX iv blir den modernaste synkrotronljusanläggningen i världen och här kommer man att kunna undersöka molekylära strukturer och ytor mer detaljrikt än vad man tidigare kunnat göra.

www.maxlab.lu.se

Media-Tryck Gunilla Albertén Mail: gunilla.alberten@se.lu.se Telefon: 046-222 96 85

GRAFISK MANUAL | APPLIKATIONER

SIGNS AND FLAGS Signs and flags are to be produced taking due account of the instructions in the graphics manual with regard to logotype, typography, colours, graphic elements and image style. The preferred placement of signs (logo) is to the left or right. Always consult with the communications office at MAX IV before placing an order.

MAX IV entrance sign.

The logo can be etched, engraved or stamped on glass, metal or other materials.

Building sign.

GRAFISK MANUAL | APPLIKATIONER

FILM The directives concerning logotype, typography, colours, graphic elements, photography, illustrations and infographics also apply to film production. Always use approved design templates (see illustrations to the left) when developing titles for film productions. Titel of the film placed here SUBTITEL OF THE FILM PLACED HERE

Opening title

Closing title

Lower third, name

GRAFISK MANUAL | PRAKTISK INFORMATION

PRACTICAL INFORMATION

GRAFISK MANUAL | PRAKTISK INFORMATION

GENERAL ADVICE WHEN SELECTING PHOTOGRAPHS

PAPER RECOMMENDATIONS

FURTHER INFORMATION

• Use high quality images as much as possible (preferably taken by a professional photographer). • Use communicative pictures with aesthetic value over pictures that are more technical and descriptive. • Remember that the pictures are to complement the text and illustrations. • Consider how to combine the pictures. Do not only use one type of pictures in a product (e.g. printed matter) but strive for variation. Vary the theme (concept, people, technology and architecture) with the way the pictures have been taken (colour, black/white, angles, distances, etc.). • Use several pictures rather than one. • Try to minimise the amount of detail in the pictures. This is especially important when it comes to backgrounds. • Pictures linked to specific research projects can obviously be used when justified. Always consider the target audience when selecting pictures.

The type of paper is an important aspect of our graphic profile. Our in-house paper, Arctic Volume White, must therefore be used on all printed profile material. This paper is very white and gives a natural paper feel to our printed material while enabling high quality prints and images. Arctic Volume White’s standard products are FSCTM and PEFC certified.

If you have questions concerning the graphic profile or need help with inspiration, design and images, please contact:

For a good result, we recommend the following weights:

MAX IV Laboratory Lund University Box 118, 221 00 Lund Tel: 046-222 98 72 www.maxiv.se

Business cards: 300 g Stationery: 90–100 g Printed matter: cover 250–350 g; inside pages 130–170 g

Communications office Tutti Johansson Falk, Head of Communications Email: tutti@maxiv.se Telephone: 0766 32 33 26