Newton Prize goes to Alan Guth
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INTJul09_p01v5.qxd:INTMar09_p01.qxd 23/6/09 16:34 Page 1 The newspaper of the physics community July 2009 Newton Prize goes to Alan Guth The Institute has awarded this year’s Newton Medal and Prize to renowned particle physicist and cosmologist Prof. Alan Guth. Guth, who is currently the Victor Weisskopf Professor of Physics at the Massachusetts Institute of Technology (MIT), developed the idea of cosmic inflation – that the very early universe went through a period of exponential expansion. This is the second year that the Institute has presented the Newton Medal, which is given for “outstanding contributions to physics” and is the only Institute medal open to an international field. Its first winner was quantum physicist Prof. Anton Zeilinger. Guth said: “I am extremely honoured and delighted by this award. I regard the Institute of Physics as one of the most prestigious physics organisations in the world, which is one of the reasons that I feel so good about being chosen for this honour. I am also proud to follow in the footsteps of Anton Zeilinger, whose work has led to dramatic improvements in our ability to see the effects of quantum theory on a macroscopic scale.” According to his citation, Guth receives the award “for his invention of the inflationary universe model, his recognition that inflation would solve major problems confronting thenstandard cosmology, and his calculation, with others, of the spectrum of density fluctuations that gave rise to structure in the universe.” It adds: “Through his invention of the inflationary universe model, Alan Guth has changed the way that cosmologists view the universe. Before Guth’s work, these issues in cosmology were generally regarded as metaphysical questions. His theory neatly solved them and it now underlies the standard model of cosmology.” He had begun working on the idea that became cosmic inflation in the late 1970s after realising that standard cosmology, when combined with standard grand unified theories of particle physics, would result in an enormous number of magnetic monopoles (hypothetical particles with only one magnetic pole) in the early universe. This would not only drastically alter the universe’s evolution, but also raises the question of why we don’t observe any magnetic monopoles in the current universe. Inflation resolves this by generating a universe so large that the density of monopoles is very low, so we could expect to see perhaps only one in the entire observable universe. Donna Coveney/MIT Chris White reports on the Institute’s award given to a world-renowned cosmologist. “The most crucial factor in my work on inflation was luck.” He later realised that it also offers a solution to two other problems with the standard Big Bang model. One of these, the “horizon problem”, concerns why the universe should be so homogenous – for example the temperature of cosmic microwave background (CMB) being the same in every part of the sky – despite it not being possible for information to have been exchanged between remote parts of space during the lifetime of the universe. The other, known as the “flatness problem”, centres on why the observed energy density of the universe should be so close to the value at which space on a cosmological scale is perfectly flat. If the initial density had been even very slightly larger or smaller then no galaxies could have formed, as the universe would either have expanded too quickly or recollapsed too quickly for this to occur. This apparent finetuning required an explanation. The period of exponential expansion postulated by Guth solves the latter problem, as it rapidly drives the universe to the critical expansion rate, and solves the former problem by introducing a period when the universe was causally connected, and during which properties such as the CMB temperature evened out, before inflation occurred. Guth told Interactions: “The most crucial factor in my work on inflation was luck. Inflation is not really very subtle, but the understanding of how the model can solve important cosmological problems depended on putting together several ideas, all of which fell into my lap more or less by accident.” The inflationary model explains the large-scale structure of the present universe as arising from quantummechanical fluctuations during inflation. Observations of the CMB by the Cosmic Background Explorer and Wilkinson Microwave Anisotropy Probe (WMAP) satellites are consistent with the predictions of the theory. The results from WMAP also confirmed that the universe is flat to an accuracy of a few percent. The CMB measurements will be repeated with greater precision by the Planck satellite, which launched in May. Guth has been invited to give the Newton Lecture at the Institute’s London premises in October, and plans to talk about current work taking place in cosmology. His latest work involves the consequences of eternal inflation – the idea that once inflation begins it never ends. He said: “It is astounding how much we have learned, and also how much we have yet to learn. I find it amazing that we can successfully calculate the spectrum of perturbations of the CMB radiation, attributing these anisotropies to quantum fluctuations that we believe originated at less than a trillionth of a trillionth of a second after time zero.” Guth studied as an undergraduate at MIT, where he also gained a master’s degree and then, in 1972, a PhD. He later held postdoctoral positions at Princeton University, Columbia University, Cornell University and the Stanford Linear Accelerator before returning to MIT as an associate professor in 1980. He has previously received the Franklin Institute’s Franklin Medal for Physics, the Dirac Prize awarded by the International Center for Theoretical Physics, the Royal Astronomical Society’s Eddington Medal and the Cosmology Prize of the Peter Gruber Foundation. ● The Institute’s awards will be formally presented at the annual awards dinner in October. Details of the other award winners can be found on pp2–3 of this issue of Interactions. CONTENTS 2 News Institute announces award winners ● Government reshuffle sees demise of DIUS ● Physicists recognised in birthday honours ● Science’s role in development debated 5 People Vicki Hodges describes her life in the satellite industry 6 Letters “Controversial” film provides educational opportunity 7 Event horizon What’s on in physics 8 Antimatters The impossible made credible “A teacher gave me a leaflet that said: ‘Rocket Scientist Wanted’.” Vicki Hodges, p5 “A wonderful example of a unique, unnerving but genuinely optimistic vision of the future.” Beth Taylor, p8 LEARN ABOUT OUR ONLINE COURSES: cpd@iop.org I n t e ractions J ul y 2 0 0 9 INTJuly09p2v7.qxd:INTJun09_p02v2.qxd 23/6/09 17:07 Page 2 2 news The following awards have been announced by the Institute: Business and Innovation Medal Prof. Sir Richard Friend (top) of the University of Cambridge and Cambridge Display Technology (CDT), and David Fyfe of CDT for guiding CDT to a pre-eminent position in the development of lightemitting polymers and of the technology for flatpanel displays and lighting. Dirac Medal Prof. Michael Cates of the University of Edinburgh for pioneering work in the theoretical physics of soft materials, particularly in relation to their flow behaviour. Faraday Medal Prof. Donal D C Bradley of Imperial College London for his pioneering work in the field of “plastic electronics”. His experimental investigations have significantly advanced our understanding of the physics of conjugated polymers as semiconductors and helped to demonstrate their widespread potential. Institute awards are announced A leading Malaysian physicist who is the director of the United Nations Office for Outer Space Affairs (UNOOSA) is among those awarded medals this year by the Institute. Prof. Datuk Mazlan Othman was awarded the President’s Medal in recognition of her work in developing astronomy education in Malaysia and her leading national and international role in space science, both through her setting up of the Malaysian Space Agency and in her UN role. The recipient of the President’s Medal is personally chosen by the serving president of the Institute, currently Prof. Jocelyn Bell Burnell. It will be given at the Institute’s awards dinner on 15 October, when the Institute’s other medals and prizes will also be presented. Othman was educated in Malaysia and studied physics at the University of Otago, New Zealand, becoming the first woman at the university to receive a PhD in astrophysics. She astronomy and laboratories for undergraduate and postgraduate training, as well as promoting the space sciences. Her campaigning to promote public awareness of astronomy led to a position with the prime minister’s department to direct the design and construction of the National Planetarium. Othman also established the nation’s Space Science Studies Division and as director-general, initiated the National Microsatellite Programme which gave birth to TiungSAT-1. In 1999 Othman was appointed as the director of UNOOSA and in 2002 she returned to Malaysia to set up and lead the National Space Agency, returning to the post of director of UNOOSA in 2007. The President’s Medal was given to Prof. Datuk Mazlan Othman. ● Details of the awards made this year are shown on this page and p3. Fuller returned to Malaysia as her country’s citations for all of the awards are availfirst astrophysicist and set about able on the Institute’s website at establishing university courses in www.iop.org/activity/awards. Connor Cahill AWARDS Glazebrook Medal Prof. Sir Peter Knight of Imperial College London for his outstanding contributions to physics in the UK and globally through his scholarship as a pre-eminent atomic and molecular optics theoretician and as a charismatic and effective leader of research and research organisations. Chadwick Medal and Prize Prof. Tejinder S Virdee of Imperial College London for his crucial role in the design and construction of the Compact Muon Solenoid experiment, one of the main experiments that starts operation at the Large Hadron Collider (LHC) this year. Joule Medal and Prize Prof. Jenny Nelson of Imperial College London for her penetrating theoretical analyses of a range of photovoltaic materials and devices that have had a profound influence on solar-cell design. Mott Medal and Prize Prof. Gillian Gehring of the University of Sheffield for her seminal contributions to magnetism. Payne-Gaposchkin Medal and Prize Prof. Eric Priest of the University of St Andrews for his numerous major contributions to many of the unsolved problems in solar physics, including magnetic reconnection, coronal heating, phasingmixing of magnetohydrodynamic waves and solar flares. I n t e ractions Jul y 2009 FameLab winner Tom Whyntie performs with Georgina Humphreys, winner of the Edinburgh regional heat. FameLab winner is a physicist By Heather Pinnell A young physicist based at CERN has won this year’s NESTA FameLab competition, which aimed to find promising new science communicators. Tom Whyntie, a PhD student at Imperial College London, took the first prize of £10 000 after competing against nine other regional winners in the grand final at the Cheltenham Science Festival in June. All of the contenders had to impress the judges with an entertaining but scientifically accurate presentation that would communicate well to a general audience, and they had just three minutes in which to do it. Whyntie, a member of the Institute who works on the Compact Muon Solenoid experiment at CERN, attempted to convince the audience that the money spent on the Large Hadron Collider would not be wasted even if researchers did not find the Higgs boson, as this would be a great result, he said. The 10 finalists were selected after initial auditions and regional heats in Bristol, Edinburgh, London, Manchester and Oxford, where each had to give a three-minute talk on a theme that differed from the one that they chose to talk on in Cheltenham. All 10 won the chance to attend a weekend master class in science communication. The Master Class prize went to Institute member Andrew Pontzen for showing the most generosity and adaptability during the weekend. The runner-up was undergraduate chemistry student Alistair Linsell, who won a £5000 prize. Third place and a £750 prize went to Simon Foster, who has a PhD in solar-terrestrial physics and is now a science teacher in London. Both they and Whyntie will each have a slot in Channel 4’s Three Minute Wonder series, with Whyntie winning an additional slot. Head judge Kathy Sykes said: “We were very impressed with all of the finalists but Tom really stood out due to his remarkable stage presence, and the fact that he tackled an incredibly complex scientific process. It’s difficult to make the null hypothesis interesting and engaging for the general public. However he managed to do this successfully and to inject fabulous humour into his talk at the same time.” Whyntie said that being in the competition had opened up a host of new opportunities for him and it had been a great pleasure to perform at Cheltenham and to talk about a subject he was passionate about. “Many people are afraid to say that they don’t know. My aim is to challenge people and help them to find out more,” he said. INTJuly09_03v9.qxd:INTJun09_p02v2.qxd 23/6/09 16:39 Page 1 news 3 Change comes to DIUS Chris White reports on a departmental move for science. Prof. Robin Ball of the University of Warwick for his outstanding contributions to the understanding of diverse complex phenomena associated with growth processes and pattern formation. Prof. Richard Jones of the University of Sheffield for his innovative work characterising polymer surfaces and thin films; and for his more recent work in nanoscience, developing novel polymeric nanostructures and being involved with societal aspects of the field. Young Medal and Prize Prof. Les Allen (top) of the universities of Glasgow and Strathclyde, and Prof. Miles Padgett of the University of Glasgow in recognition of their pioneering work on optical angular momentum. Bragg Medal and Prize Lord Drayson stays as science minister, but in a new department. tary of state with the same portfolio. The Institute has signed an open letter to Harriet Harman, the leader of the House of Commons, in support of a recommendation from the current Innovation, Universities, Science and Skills select committee that seeks to persuade the government to set up a select committee specifically to cover science, engineering and technology. ● A debate on the Institute’s statement on the changes, quoted above by Beth Taylor, has been started on MyIOP, the members’ online network. Honours awarded to physicists By Chris White Nine of the Institute’s members have been recognised in the Queen’s Birthday Honours for their contributions to science, education and industry. Prof. Bill Wakeham, vice-chancellor of the University of Southampton, received a knighthood for services to chemical engineering and to education. Last year Wakeham chaired the Research Councils UK’s review of the health of UK physics. He was appointed as vice-chancellor at Southampton in 2001 and also holds a position as a visiting professor at Imperial College London. A CBE was awarded to Peter Saraga, immediate past president of the Institute and vice-president of the Royal Academy of Engineering, for services to science and to engineering. Saraga was the managing director of Phillips Research Laboratories UK until 2002. He had previously received an OBE in the 2003 New Year Honours. Rayleigh Medal and Prize Tabor Medal and Prize DIUS The Department for Innovation Universities and Skills has been scrapped just two years after it was created. It has merged with the Department for Business, Enterprise and Regulatory Reform to produce a new Department for Business, Innovation and Skills (to be known as BIS). Responsibility for science and for higher education will be taken over by Lord Mandelson, who becomes Secretary of State for the new department. Lord Drayson retains his position as minister for science and innovation and David Lammy will keep his role as minister for higher education and intellectual property within the new department. Beth Taylor, the Institute’s director of communications said: “As the responsibility for science and its budget moves departments, it’s crucial that money for science remains ring-fenced and, if it is to be returned to the department focused on business and enterprise, it does not result in additional pressure on the research councils to deliver more short-term, mission-based research. “Scientists need the freedom to undertake fundamental, curiositydriven research if they are to deliver the significant breakthroughs needed to face the challenges of the 21st century.” Other ministerial appointments in the new department include Kevin Brennan, the MP for Cardiff West who takes up the position of minister for further education, skills, apprenticeships and consumer affairs; and Lord Carter, who becomes minister for communications, technology and broadcasting, having previously served as parliamentary undersecre- AWARDS Peter Saraga was awarded a CBE. Prof. Lynn Gladden of the University of Cambridge’s department of chemical engineering also received a CBE for services to science. Prof. Helen Gleeson, head of the school of physics and astronomy at the University of Manchester, was awarded an OBE for services to sci- ence. Gleeson was appointed to her position as head of school last year and has previously chaired the British Liquid Crystal Society and edited Liquid Crystals Today. An OBE also went to Prof. Kathy Sykes of the University of Bristol, a former winner of the Institute’s Kelvin Medal, for services to science and technology; to Kamal Hossain of the National Physical Laboratory for services to industry; and to Robert William Hunt for services to science and to young people. MBEs went to BBC radio’s science editor Deborah Cohen for services to science and to broadcasting, and to Michael De Podesta of the National Physical Laboratory for services to science. De Podesta’s research involves developing a thermometer more sensitive than any yet constructed in order to fix the value of Boltzmann’s constant. His course on physics for lay people was featured in May’s Interactions. Becky Parker of Simon Langton Grammar School for Boys for her work to energise generations of pupils to take up the study of physics; to raise substantial sums to provide major facilities in astronomy and other branches of physics in her region; and for her positive influence on physics education nationally. Kelvin Medal and Prize Prof. John D Barrow of the University of Cambridge for the promotion and explanation of physics and astronomy to young people and the general public through many books, lectures, broadcasts and drama. Maxwell Medal and Prize Dmitry Skryabin of the University of Bath for his contributions to the theory and modelling of nonlinear optical processes; in particular for predictions and the understanding of the effects that accompany the interaction of solitons with radiation, and the generation of ultrabroad spectra in optical fibres. Moseley Medal and Prize Matthew Wing of University College London for his outstanding contributions to the experimental programme of the Hadron Electron Ring Accelerator at DESY, the leading experimental facility for studying the detailed sub-structure of the proton. Paterson Medal and Prize Rachel A McKendry of University College London for her internationally recognised contributions to the field of nanomechanics, particularly of complex biomolecular systems. I n t e ractions J ul y 2 0 0 9 INTJul09_p04v5.qxd:INTFebp2v1.qxd 23/6/09 16:41 Page 2 4 news HIGHLIGHTS Oceans could hold key to shifting magnetic field NASA A new research paper has cast doubt on the view that the Earth’s fluid outer core is responsible for variations in the Earth’s magnetic field, and suggests that these could be due to the oceans. The paper, “Secular variation of the Earth’s magnetic field: induced by the ocean flow?” appears in the New Journal of Physics, published jointly by the Institute and the German Physical Society. In the paper Prof. Gregory Ryskin, of the School of Engineering and Applied Science at Northwestern University in Illinois, US, applies equations from magnetohydrodynamics to the oceans’ salt water and finds that long-term changes in the Earth’s main magnetic field are possibly induced by the circulation of Earth’s oceans. Tim Smith, senior publisher of the journal, said: “This article is controversial and will no doubt cause vigorous debate, and possibly strong opposition, from some parts of the geomagnetism community. As the author acknowledges, the results by no means constitute a proof but they do suggest the need for further research.” Physics helps to find treasure among the trees By Chris White Efforts to help developing countries to advance through building their science base should include elements of pure science as well as applied research based on each country’s own priorities, according to Mike Cruise, chair of the international committee of the Royal Astronomical Society (RAS). At a meeting on “Capacity Building in the Developing World”, Cruise said that astronomy is “a very powerful way of introducing people to the scientific method”. He said: “When you go and teach children that you can predict a solar eclipse, that’s the first time that they see a scientific prediction that comes true, so they start to see that science works. Then when you have an agricultural problem they believe that the scientific approach is the right one – previously they didn’t.” The meeting was organised by a small group of learned societies, including the Institute. It was held to exchange experience of capacitybuilding programmes for developing countries, to examine the scale and status of these programmes in UK learned societies and to discuss possible benefits of coordinated action. Hans Hagen, the Royal Society’s senior manager of international grants, told the meeting that programmes funded by the society should be responsive to need. Its consultations seek to identify national research priorities such as agriculture or sanitation, he said. Peter Willmore of the Committee for Space Research added: “The crucial thing is that these choices should be made by the countries that we’re talking about, not by us.” Opinion was divided on the best scale of project to attempt. Some attendees advocated joint bids for funding by several learned societies, while others claimed that “small is beautiful”. David Elliot, the RAS’s executive secretary, warned that big programmes come at the price of ceding control to funding organisations. The Institute’s director of communications, Beth Taylor, gave a talk on its Physics for Development programme. A large element of this has been providing experimental equipment to schools in countries such as Rwanda. Taylor said: “In school, the time when I really understood things was when I saw the experiment working. That was what was missing from the schools in Rwanda.” At the meeting, which was led by Liz Bell of the Physiological Society, those attending agreed that the group should review opportunities for increased collaboration arising from the discussions at the event. Peter Gibson A treasure hunt with a high-tech twist is being run jointly by the Institute’s Physics in Society team and Oxford University’s Harcourt Arboretum over the summer. From 22 July until early September visitors can take part in Quest, which involves using a global positioning system (GPS) unit to determine the location of hidden boxes, or “geocaches” in the arboretum’s grounds. The boxes contain activities related to physics or to trees, which the participants can try out before moving on to the next box. There will be two separate trails: “Express Quest” aimed at families with children aged 7–11, and “Mystery Quest” for older children and adults. The activities for the younger group include making a paper helicopter and decoding a secret message using coloured paper, while the older group could find themselves estimating the height of a tree or measuring the ultraviolet index of the sun using colourchanging beads. GPS units can be borrowed free of charge, but there is an entrance fee for the arboretum itself. For more information, visit www.botanic-garden.ox.ac.uk. Global role of science debated WOMEN IN PHYSICS NASA astronaut brings inspiration to Newcastle NASA Former NASA astronaut Rhea Seddon visited Newcastle last month to share her experiences of working in space. She gave talks to two groups of 150 students on “space as inspiration” as part of an International Space School Educational Trust visit to the region. The visit was organised jointly by the Institute and Newcastle Science City. Seddon, a medical doctor who has clocked up more than 700 hours in space over three missions, spoke at the city’s Centre for Life about some of the practical aspects of space travel, such as washing with baby wipes and how astronauts’ lungs get compressed by their stomach rising in the absence of gravity. Chris Barber, the director of the International Space School Educational Trust said: “We wanted to bring this former astronaut to Newcastle to help spread the NASA ‘you can do it’ spirit.” Government expands on Institute’s pilot projects Two of the pilot projects from the Institute’s Stimulating Physics programme are being rolled out as part of a £20 m programme to increase the number of science graduates by the Higher Education Funding Council for England and the Higher Education Funding Council for Wales. It was announced on 15 June that the physics-based interdisciplinary degree, Integrated Sciences, and Repackaging Physics, a project to change the way physics is marketed to school leavers, will be included in the programme. Peter Main, the Institute’s director of education and science, said: “I am delighted that the National STEM Programme, along with other projects carried out by the Institute, will help universities to broaden the appeal of physics.” I n t e ractions Jul y 2009 The prize for Very Early Career Woman Physicist of the Year was presented to Vicki Hodges of Astrium Ltd at the Institute in May. Hodges (pictured right) received her prize of a £1000 cheque from Janine Wallace, president of the Women’s Network at Shell. The company sponsored the award because people with skills in science, technology and engineering are crucial to its success, she said. The runner-up in the competition, organised by the Institute’s Women in Physics Group, was Suzanne Sheehy of the University of Oxford, and joint third-place winners were Manda Banerji of University College London and Natalie Garrett of the University of Exeter. All four women gave presentations on their work and received a book and a certificate. Briefing examines health technology By Heather Pinnell The role of technology in caring for people in their own homes was under discussion at a seminar held at the Institute in June. The Key Insight Business Briefing “Connected Healthcare – Challenges and Opportunities” was organised by the Institute’s business and innovation department. The meeting was chaired by the Institute’s immediate past-president, Peter Saraga, who said that connected healthcare was a hot topic that presented scientific, technological, social and ethical challenges impinging on public policy, as well as business opportunities. Chuck Parker, executive director of the US-based Continua Alliance, described how remote patient monitoring could play a key role in treating people at home and perhaps reducing the need for them to visit a doctor’s surgery or a hospital. It could help in keeping people safe and well at home, enable rapid sharing of data that might indicate a problem and assist patients in their own lifestyle management. The Continua Alliance was an alliance of 200 companies across the world. Its partners included healthcare providers such as the NHS, he said. David Bott, director of innovation programmes at the Technology Strategy Board (TSB), said that through its innovation platforms the TSB helped to identify how government policy might give rise to future market opportunities and supported the most innovative technologies. Its Assisted Living Programme was an innovation platform to support the development of the technology needed to enable people who suffer from long-term conditions to live independently. Bott said that with an ageing population there would be an increase in non-communicable diseases such as heart disease and dementia, while the number of infectious and drugresistant diseases worldwide was also growing. He said that healthcare provision in the future would have to be different and would require collaboration between sectors that do not traditionally work together. INTJul09_p05v4.qxd:INTMar09_p05 23/6/09 16:43 Page 5 people 5 profile: Vicki Hodges Career takes off for satellite engineer Vicki Hodges, a satellite engineer who has just won a prestigious award for women in their early career, is living proof that there is a world beyond academia and research for physicists. But the enthusiastic advocate for science was nearly put off the subject for life until an inspirational physics teacher intervened. Hodges won the 2009 competition to find the Very Early Career Woman Physicist of the Year – an award given by the Institute’s Women in Physics Group and sponsored by Shell (see p4). She was honoured both for her achievements as an attitude and orbit control systems engineer at Astrium Ltd and for her outreach work. However, her career could easily have taken a different path. As a child she was interested in science but by the time she came to choose GCSE options at 14 she was set on a career in law and decided to do double award science rather than three separate sciences so that she could study two languages. She had found physics lessons up until then uninspiring, she says. “I didn’t lose interest completely but I started to think in terms of the stereotypes and believed that physics was definitely not for girls – I thought it was a ‘boy’ science. Our classroom surroundings didn’t have much daylight and we seemed to do a lot of electronics experiments that seemed to me then to be more of a male thing.” Only after a rather negative experience on a two-week work placement in a solicitor’s office did she realise that law was not for her. This, however, left her despairing about finding an alternative career. On her return to school Hodges spoke to her new physics teacher – who was female and very approachable, she says. “She said: ‘have you ever thought about a career in physics?’. I said: ‘what can you do with it – become a physics teacher?’ and she gave me a leaflet that said: ‘Rocket Scientists Wanted’. I thought: ‘Wicked! That sounds like fun,’ and it really spurred me on.” In fact the leaflet was advertising financial careers for physicists but it had had its effect. She studied physics, chemistry, history and archaeology AS-levels at a sixth form community college, which advised her that she would not need to study maths. “Luckily enough the college put me forward for a summer school run by the Sutton Trust at the University of Nottingham. There they told me that I really would need maths and I should get myself on the maths course in the autumn. The college was pretty good about it and arranged for me to start A2 maths classes that September.” She attended the AS and A2 modules for maths alongside each other, and dropped chemistry. Her A-level physics teacher was also a woman. “She had done geophysics and had been about to work in industry before becoming a teacher instead, so she knew about the things that you could do with physics outside of teaching.” There were three girls in her class of 15–20 students. Hodges went on to the University of Surrey to do physics with satellite technology. “In our intake of 60 people doing physics courses there were only nine women, but I don’t think that any of us felt that there was any discrimination. At that time there were no female physics lecturers and I think that the department thought that this was a shame and possibly made a point of trying to ensure that the girls did not feel left out.” When applying to university, Hodges had decided that she wanted to do something related to space. “I knew that I didn’t want to be a researcher or stay in academia, so I was looking for something a bit different from astrophysics. There were about six courses then that combined physics and space, but Surrey was definitely my first choice. The course sounded great because it had the word ‘technology’ in it. I knew about Surrey Satellite Technology Ltd (SSTL) being based there and also Surrey was the friendliest place on the open day.” SSTL has since been bought by Astrium but was then a spin-off company owned by the university. “Because it was on the site there was also a space research centre with some staff who were into the science side while others were into engineering or technology. Some of those people were teaching you and working on the satellites every day as well.” Hodges was on a four-year undergraduate course, one year of which was an industrial placement. She spent the time in Germany, working in Darmstadt for Vega Ltd, which does contract work for the European Space Agency (ESA). It also had the contract to work on Radarsat-2 for the Canadian Space Agency, and Hodges worked on this as a junior simulations engineer. “It was very much a software engineering type of job. It was a great year and great for making the right contacts and finding out about the industry as a whole – I had never heard of Astrium until I went there.” The year also helped her to realise that she was interested in the design and manufacture of spacecraft. After completing her degree she had been planning to do an MSc in aeronautics and satellite and space engineering at Cranfield University. “I wanted to do it because I’d heard that without an MSc you are unlikely to break into the industry.” However, a friend nudged her into applying to Astrium’s graduate scheme. She was accepted and started working at its Stevenage site six weeks after graduating in 2006. “There were a couple of us who came into the scheme with a BSc, but both of us had done an industrial placement. If you’re expecting to get this type of job with a BSc you really need that to back you up.” Astrium is a leading satellite manufacturer and designer with a number of sites across Europe. “No single place will do everything and we work with other engineering companies. The Stevenage site builds commercial and military telecommunications satellites and many bespoke spacecraft for space science and Earth observation missions.” Previous space agency missions that it has worked on include Mars Express, Beagle 2 and the Rosetta mission. Astrium’s graduate development programme is a two-year training scheme. “You’re hired by a particular group or department that thinks that your CV and skills match what they are looking for. You start off with that group and usually return to it after two years. I started out working within the Attitude and Orbit Control System (AOCS) group on collision avoidance techniques for formation-flying spacecraft missions.” This involved some complicated maths, she says. “All that you learn from dynamics as a physics student is absolutely essential.” The programme also included work with non-engineering departments and a three-month secondment to Toulouse with the AOCS group. She currently works as an AOCS engineer on the GAIA project – a space mission that will map stars in our galaxy and the Local Group, providing information on their position and radial velocity. “Here we are working on the electrical service module that is like the heart and brains of the satellite.” A major part of that is the AOCS, the main aim of which is to control the orientation of “All that you learn from dynamics as a physics student is absolutely essential.” Graham Holt/Astrium Ltd Heather Pinnell meets a physicist with a mission in industry. Satellite engineer Vicki Hodges has received an early career award. the satellite throughout the mission. “We can’t physically sit there and drive it, so we have to make it autonomous. Our group has to provide the software engineers with a set of specifications and how to calculate everything. We give them all of the equations to be done and what order to do them in. Then they bring the software back to us and we test it through simulations to ensure that it does everything we need it to do correctly.” Astrium’s other current projects include working on the Aeolus satellite, which will measure wind speeds on Earth, the LISA Pathfinder satellite to measure gravity waves and the ExoMars Rover. Hodges got involved in outreach shortly after joining Astrium and enjoyed it so much that she organised a placement for herself within the public relations group. It asked her to revamp their school visits. “Having some suggestions from teachers about the sort of things that they wanted from a visit, I set about designing a new programme based on hands-on activities designed to show students how satel- lites are designed and built. “It’s been running for 18 months and we saw 500 children in the first year. There are 20–30 visits per year and I couldn’t do them all, so we now have a whole group of STEM ambassadors. My job was to train them and I’ll go on doing that while fitting in occasional visits. I really enjoy them but I do have a day job to do as well.” More recently Hodges has worked with a primary school on a project to build a model space station in which to simulate living in space. She also finds time to be a cub scout leader and to learn the piano, and is hoping that being recognised with the early career award will enable her to expand her outreach work. She was impressed by the other three people shortlisted for the award, who were all PhD students, and was shocked when she won. “I was just so honoured that out of the four people they chose me and it’s nice that somebody from industry could be honoured as well. I hope that I can use the award to show that you can do physics and have a career in industry.” I n t e ractions J ul y 2 0 0 9 INTJul09_p06v4.qxd:Layout 1 23/6/09 16:44 Page 6 6 letters President Dame Jocelyn Bell Burnell DBE FRS CPhys FInstP, Immediate Past President Mr Peter Saraga OBE FREng CPhys FInstP, Honorary Secretary To be elected, Honorary Treasurer Prof. Colin Latimer CPhys FInstP, Vice-president, Publishing Prof. Sir John Pendry FRS CPhys FInstP, Vice-president, Education Dr Robert Lambourne CPhys FInstP, Vice-president, Business & Innovation Dr Norman Apsley CPhys FinstP, Vice-president, Membership & Qualifications Mr Alan Pratt CPhys FInstP, Vice-president, Science Prof. Denis Weaire FRS CPhys FInstP, Chief Executive Dr Robert Kirby-Harris CPhys FinstP, Director, Education and Science Prof. Peter Main CPhys FInstP, Director, Membership & Business Mr John Brindley, Group Finance Director Mr Sean Fox MInstP, Managing Director, Institute of Physics Publishing Mr Jerry Cowhig, Director, Communications & External Relations Dr Beth Taylor. Editor Heather Pinnell, Assistant Editor Christopher White, Senior Production Editor Alison Gardiner, Art Director Andrew Giaquinto. Institute of Physics, 76 Portland Place, London W1B 1NT, UK. Tel +44 (0)20 7470 4800 ; fax +44 (0)20 7470 4991; e-mail interactions@iop.org; web http://members.iop.org OBITUARY Angelic thoughts Prof. Don Pashley (1927–2009) I was interested to read the “Antimatters” article on Angels and Demons by Chris White (June). Yes, the film is controversial, but it has a lot going for it. It is an opportunity for us to inform the public about particle physics and to set the record straight about how much of the film is science fiction and how much is science fact. I am giving a tutorial on “The Physics of Angels and Demons” to Open University students at the residential summer school at the University of Sussex on 27 July, and already there is a lot of interest on their forum. In the US there are lots of public lectures on the film. The tutorial is at 8.15 p.m. in the university’s Pevensey Building and members of the Institute would be most welcome to attend, but they Prof. D W (Don) Pashley, an outstanding materials scientist and a fellow of the Institute, died on 16 May. He was born in Wandsworth, London, and went to The Henry Thornton School in Clapham, although this stage of his education was interrupted by evacuation to Chichester as a result of the blitz. He studied physics at Imperial College, obtaining a first class honours degree in 1948 and a PhD in 1950. After a period as an ICI Research Fellow under Maurice Blackman, he moved to the Tube Investments Research Laboratories at Hinxton Hall, Cambridge, in 1956 and became director and head of laboratories in 1968. In 1979 he was appointed professor of materials and head of the department of metallurgy and materials (subsequently materials department) at Imperial College. He formally retired in 1992, but continued his research until 2008. He was a pioneer of nanoscience and nanotechnology even before those terms had been coined, renowned for his in situ studies of thin film growth and epitaxy, using transmission electron microscopy, reflection high-energy electron diffraction and eventually scanning tunnelling microscopy after it had been invented. He published his last paper just four months before he died. Among his many publications he co-authored Electron Microscopy of Thin Crystals, the bible for electron microscopists, with Hirsch, Howie, Nicholson and Whelan. Pashley was elected a fellow of the Royal Society in 1968. He chaired the Institute’s Electron Microscopy and Analysis Group (1963–1965) and was founding chairman of the Thin Films and Surfaces Group (1969–1971). He served on a wide range of academic and governmental committees, including the editorial boards of Reports on Progress in Physics and Journal of Physics F. He was a quiet man, not given to trivial chat, who was nevertheless extremely eloquent in explaining the essential physics of a problem. He was utterly meticulous in the collection and analysis of data and in the preparation of manuscripts for publication. He was a great favourite with journal editors and a delight to work with, but he never sought the limelight, despite his distinction as a scientist and a scientific leader. He is survived by his wife of 54 years, Glenys, his son Michael, daughter Anne (Jackson) and seven grandchildren. would need to contact me first at hislop@chathamhouse.kent.sch.uk. Sorry you didn’t enjoy the film! John Hislop Via e-mail Write to interactions@iop.org or the address above. Letters may be edited for length. CORRECTION An item in the June issue of Interactions said that a statement on science teaching and creationism from the Council of the Institute had been posted on the policy section of the website. In fact the link was not available until 12 June. Our apologies for this mistiming. The statement is now available and can be accessed at www.iop.org/activity/Informing%20 Policy/page-35354.html. Interactions is not published in August – we will be back in September. Remembered by Bruce Joyce. notices N E W C O R P O R AT E AFFILIATES Micro: 4D Optics Ltd. N E W FE L LOWS Robert Barrie Appleby, Neil Kenneth Bourne, Colin Richard Cunningham, Vikram Singh Dhillon, Leonard Ross Fisher, Durga Prasad Mahapatra. NEW MEMBERS Malamatenia Avgoulea, John William Bond, Jess Martin Bromley, Daniel Klaus Burgarth, Malcolm John Burns, Adrian Kevin Butler, Dominic Howard James Cave, Lucy Elizabeth Clark, Jonathan Stephen Earl, Anthony Grant, Simon Jon Hambleton, JanMartin Hertzsch, Veronika Hubeny, David James, Daniel Charles Jones, Christopher William King, Annika Lohstroh, Stuart Peter David Mangles, Nicholas McCullen, Stewart David Alexander McKane, Remember, as a member... ...we can help you to reach your potential. Stuart Grant McRobbie, Christian Morgan, Martin James O’Boyle, Lisa Jane Peacock, Michel Peyrard, Ulrich Raitzsch, Philip Kenneth Ramskill, James Peter Riches, Jefferson Miles Ridgway, Richard Sanders, Jeffrey Gordon Scott, Michael Barrie Spurr, Bashir Tahir, Uchechukwu Vincent, Kathleen Theresa Voisey, Christopher James Walker, Matthew Anthony Ward, Khin-Khin Win, William Jack Woolfenden, Zhijie Xu, Li Yang. IN MEMORIAM William Douglas Allen, John Edmund Aubrey, Rod Brown, David Nelson Ellis Cooper (Cheltenham), Kenneth Davis (Portland, US), John Stuart Dryden, George David Haberfield, Alan Thomas Joseph Hayward, Ronald Michael Horsley, Charles Goethe Kuper, Stephen Finney Mason (Cambridge), Denis Moriarty, Michael Anthony Orton (Harlech), Donald William Pashley, N J Phillips (Loughborough), Bernard William Sharpe, Maurizio Spadoni, Arthur Francis Watson, John Michael Ziman. innovation. The closing date is 17 July. For details, visit www. theengineerawards.co.uk/home. MEMBER OFFER ANNOUNCEMENTS ● Online subscription prize draw ● The Engineer Technology and Neil Curson from London is May’s prize-draw winner. He receives a 4 GB data stick. For your chance to win a data stick, pay your membership subscription online at http://members.iop.org. Innovation Awards 2009 is inviting entries. The competition is run by The Engineer and BAE Systems to recognise collaboration between UK universities and companies in • Access our range of online transferrable skills courses exclusively developed for members. • Exploit our advice and resources to help you plan your professional development. • Topics include leadership, coaching, time management and negotiation skills. For more information, visit http://www.iop.org/activity/cpd. E-mail cpd@iop.org or tel +44 (0)20 7470 4822. I n t e ractions Jul y 2009 INTJul09_p07v7.qxd:INTApr09_p07.qxd 23/6/09 17:11 Page 7 event horizon 7 Visit whatson.iop.org for full details of all Institute of Physics events. JULY 2009 Annual Liverpool Physics Teachers Conference One-day event with speakers, discussion and activities. Merseyside Branch University of Liverpool 2 July E-mail louise.butcher@iop.org Functional Optical Imaging Conference Conference with speakers and poster sessions. Biological Physics Group University of Nottingham 2–3 July www.nottingham.ac.uk/ibios Registration required Annual IOP Particle Accelerators and Beams Conference One-day conference with speakers. Particle Accelerators and Beams Group 76 Portland Place, London W1 3 July, 11.00 a.m. http://indico.cern.ch/conference OtherViews.py?view=standard& confId=57296 Registration required Teachers’ Day Lectures and workshops on physics and physics teaching. Yorkshire Branch Physics Department, University of York 4 July, 10.00 a.m. www.iop.org/activity/branches/ branch%20calendar/index.html Schools Lecture Series 2009: How to Explore the Universe – A Tale of Telescopes, Time Travel and Extraterrestrials Lecture by astronomer Andy Newsam. Education Department Royal Institution, London; Harlow Study Centre; University of Hertfordshire, Hatfield; Queen Mary University, London 6, 7, 8 and 9 July www.iop.org/activity/Education/ Events/index.html Plasmas, Computation and Mathematics Workshop to discuss new developments in theoretical methods. Mathematical and Theoretical Physics Group University of Cumbria, Ambleside 18–21 July www.iop.org/activity/groups/subject /mtp/mtp_calendar/index.html CONFERENCE Correlated Electron-Ion Dynamics: Debutante Meeting to discuss the computer codes that implement correlated electron-ion dynamics and to establish collaborations. CEID Consortium 76 Portland Place, London W1 13 July www.iop.org/Conferences Booking required AUGUS T 2009 Optics in the Sea European Optical Society meeting on “blue” photonics. Optical Group University of Aberdeen 17–19 August www.iop.org/activity/groups/subject /opt/opt_calendar/index.html Registration required Metamaterials 2009 Conference on the latest results of metamaterials research. Optical Group/Metamorphose VI Queen Mary, University of London 30 August – 4 September www.iop.org/activity/groups/subject /opt/opt_calendar/index.html Registration required SEPTEMBER 2009 Schools Lecture Series 2009: How to Explore the Universe – A Tale of Telescopes, Time Travel and Extraterrestrials Lecture by astronomer Andy Newsam. Education Department Heriot-Watt University, Edinburgh; University of Dundee; Robert Gordon’s College, Aberdeen; Glasgow Science Centre; Bromsgrove School; University of Birmingham, Edgbaston; Devonport High School, Peverell, Plymouth; Bruton School for Girls, Somerset 1, 2, 3, 4, 16, 29 and 30 September www.iop.org/activity/Education/ Events/index.html QuAMP 2009 International conference on quantum, atomic, molecular and plasma physics. Molecular Physics Group University of Leeds 7–11 September www.iop.org/activity/groups/subject /mol/molp_calendar/index.html Registration required Registration required RSC Faraday Discussion 144: Multiscale Modelling of Soft Matter Conference on bio-simulation, materials modelling, liquid crystals and colloids. Liquids and Complex Fluids Group/RSC Faraday Division University of Groningen, the Netherlands 20–22 July E-mail conferences@rsc.org Registration required Computer Simulation and the Environment Talks on computer modelling of phenomena associated with the environment. Computational Physics Group/ Environmental Physics Group 76 Portland Place, London W1 10 September www.iop.org/Conferences Booking required Physical Aspects of Polymer Science Three-day meeting for the polymer community. Polymer Physics Group Wills Hall, Stoke Bishop, Bristol 14–16 September www.iop.org/Conferences Registration required Finite Temperature Nonequilibrium Superfluid Systems Three-day workshop. Theory of Condensed Matter Group/INTERCAN Van Mildert College, University of Durham 14–17 September E-mail Nikolaos.Proukakis @ncl.ac.uk Registration required Thin Film Photovoltaics Conference with invited speakers on thin film technologies. Ion and Plasma Surfaces Group 76 Portland Place, London W1 16 September www.iop.org/Conferences Registration required OCTOBER 2009 CONFERENCE Sensors and their Applications XV Fifteenth biennial conference on sensor technology techniques and applications. It will be co-located in Edinburgh with Optical Fibre Sensors 20. Instrument Science and Technology Group Heriot-Watt University, Edinburgh 5–7 October www.iop.org/Conferences Booking required Optical Fibre Sensors The 20th international conference on optical fibre sensors. Optics and Photonics Division Heriot-Watt University, Edinburgh 5–9 October www.ofs20.org Registration required Liquid Nitrogen Demonstrations Talk by Peter Ford of the University of Bath. London and South East Branch Open University, Milton Keynes 13 October, 7.30 p.m. www.iop.org/activity/branches/ South_East/London_and_South_ East/lse_calendar/index.html Registration required Photonex 09 Exhibition and conference with demonstrations and speakers. Optical Group Royal Conference Suite, Stoneleigh Park, Coventry 14–15 October www.photonex.org Registration required Schools Lecture Series 2009: How to Explore the Universe – A Tale of Telescopes, Time Travel and Extraterrestrials Lecture by astronomer Andy Newsam. Education Department St Edward’s School, Charlton Kings, Cheltenham 1 October www.iop.org/activity/Education/ Events/index.html The Influence of External Fields in Soft Matter Conference for those with an interest in soft matter under external fields. Liquids and Complex Fluids Group 76 Portland Place, London W1 2 October, 10.30 a.m. www.iop.org/activity/groups/subject /lcf/lcf_calendar/index.html Monte Carlo Treatment Planning Workshop on the use of Monte Carlo technology for the diagnosis and treatment of cancer. Computational Physics Group National Museum Wales, Cardiff 19–21 October www.iop.org/activity/groups/subject /comp/comp_calendar/index.html Registration required N OV E M B E R 2009 DECEMBER 2009 Dynamics of Printed Drops II Meeting to foster collaboration from application to fundamental science. Printing and Graphics Science Group 76 Portland Place, London W1 2 November www.iop.org/Conferences International Symposium on Reactive Sputter Deposition Conference on recent achievements. Ion and Plasma Surface Interactions Group/Plasma Physics Group Museum of Science and Industry, Manchester 9–10 December www.dri.mmu.ac.uk/rsd2009 Registration required Registration required Digital Futures 2009: Image Physics and Psychophysics One-day meeting. Printing and Graphics Science Group 76 Portland Place, London W1 3 November www.iop.org/activity/groups/gd_ calendar Registration required Aharonov Bohm Effect and Berry Phase Anniversary 50/25 Conference to celebrate the anniversaries of the two discoveries. Mathematical and Theoretical Physics Group University of Bristol 14 December www.iop.org/Conferences Registration required Low-Temperature Techniques Course Meeting aimed at newcomers to experimental research at low temperatures. Low Temperature Group East Midlands Conference Centre, Nottingham 4 November www.iop.org/Conferences Registration required Schools Lecture Series 2009: How to Explore the Universe – A Tale of Telescopes, Time Travel and Extraterrestrials Lecture by astronomer Andy Newsam. Education Department Abingdon School 15 December www.iop.org/activity/Education/ Events/index.html Schools Lecture Series 2009: How to Explore the Universe – A Tale of Telescopes, Time Travel and Extraterrestrials Lecture by astronomer Andy Newsam. Education Department Highcliff School, Christchurch 4 November www.iop.org/activity/Education/ Events/index.html BRSG Christmas Meeting Series of invited lectures from leading researchers. BRSG: The Magnetic Resonance Group 76 Portland Place, London W1 15 December www.iop.org/Conferences Experimental Techniques in Semiconductor Research Course aimed at new researchers in experimental semiconductor physics. Semiconductor Group East Midlands Conference Centre, Nottingham 11 November www.iop.org/Conferences Preservation and Conservation Issues in Digital Printing and Digital Photography Registration required Registration required CONFERENCE Fourth international conference for conservators, digital photographers and printers. Printing and Graphics Science Group 76 Portland Place, London W1 27–28 May 2010 www.iop.org/Conferences Booking required CMMP09 Condensed Matter and Materials Physics 15–17 December 2009 University of Warwick, UK Registration required Modern Practice in Stress and Vibration Analysis Conference to focus on theoretical and experimental methodology. Stress and Vibration Group Murray Edwards College, Cambridge 8–10 September www.mpsva2009.org Registration required EMAG 2009 Conference on microscopy at the nanoscale and beyond. Electron Microscopy and Analysis Group University of Sheffield 8–11 September www.emag2009.org CONFERENCE 19th International Conference on Ion Beam Analysis Conference to commemorate the 100th anniversary of the first backscattering experiment, providing a forum for those who are interested in the analysis of materials using ion beams. Ion and Plasma Surface Interactions Group University of Cambridge 7–11 September www.iba2009.org Registration required CMMP is the UK national conference for condensed matter and related physics. It will include 16 symposia, covering the most exciting and topical aspects of condensed matter and materials physics. There will also be an opportunity to discuss access to large-scale facilities at a “Meet the Research Councils” session. Special themes this year include: • energy • extreme matter • nanophysics • quantum fluids • synchrotron methods • pnictide superconductors • multiferroics • plasmonics • ultracold atoms Plenary speakers: • Donal Bradley (Imperial College), Mott lecturer • Stephen Blundell (Oxford), Wohlfarth lecturer • Mike Gillan (UCL) • Gil Lonzarich (Cambridge) • Gerd Materlik (Diamond) • Igor Mazin (NRL, Washington) • John Pendry (Imperial College) For more details and the list of symposia, visit www.cmmp.org.uk. Registration required I n t e ractions J ul y 2 0 0 9 INTJul09_p08v5.qxd:INTJun09_p08.qxd 23/6/09 16:46 Page 8 matters 8 Physicist faces the challenge of the impossible I have a soft spot for Desert Island Discs on Radio 4. It’s a well-worn format, but it often reveals more about the real character of the “castaways” than the most probing conventional interview. A few weeks ago the programme featured Barry Humphreys (aka Dame Edna Everidge) and I looked forward to catching a glimpse of the man behind the matriarch. But when the closing call of sea birds faded, I was none the wiser. Had I been given an insight into the real Barry Humphreys, or just another character in the layers that he has created as a cover? Attending a lecture by Michio Kaku a few days later, I was left feeling much the same. Had I been treated to a powerful presentation of the potential of modern physics, or just an enthralling hour of entertainment? The lecture was on “The Physics of the Impossible”, which is also the title of Kaku’s 2008 best-selling book, recently published in paperback. Held in Oxford on 29 May in the grand surroundings of the Said Business School, and sponsored by St Cross College, the lecture was one of a series that Kaku is undertaking to promote his book, described as “a scientific exploration into the world of phasers, force fields, teleportation and time travel”. The 300-seat lecture theatre was packed for the occasion. Kaku started by telling his audience a little about his background. Born in California just after the Second World War, he clearly demonstrated early promise by building what sounds like a particle accelerator from scratch in the family garage. He took his project to a high-school science fair where he met and impressed Edward Teller. A few years later Teller offered the young physics student a job on the hydrogen bomb programme, but Kaku turned it down. He was already interested in studying a “much bigger explosion” – the origins of the universe. Kaku is recognised as one of the principal founders of string theory, which he briefly introduced as the “theory of everything”, providing a link between the fundamental forces of nature by extrapolating the laws of particles Research Student Conference Fund The fund provides financial support to research student members to attend international conferences and major national meetings. Apply for up to £250 during the course of your PhD. Applications are considered on a quarterly basis and should reach the Institute by 1 September, 1 December, 1 March or 1 June. For further information, see www.iop.org or e-mail supportandgrants@iop.org. I n t e ractions Jul y 2009 physics into many dimensions. For Kaku, autumn 2009 represents a make-or-break date for string theory. When CERN’s Large Hadron Collider overcomes its start-up problems, he argues that it should provide some of the experimental evidence that will test the theory, possibly by revealing whether extra spatial dimensions exist, and either confirm his work and that of his colleagues or send them back to the drawing board to seek an alternative framework for the universe. From then on his lecture abandoned the complexities of string theory to concentrate on futurology. And in his vision of the future, everything comes in categories of three. First, there was Arthur C Clarke’s “Third Law”, which states that any sufficiently advanced technology is indistinguishable from magic. Then he defined three “classes of impossibility”: class 1, which might be achieved within decades; class 2, which might be achieved in centuries; and class 3, the genuinely impossible, including all phenomena such as perpetual motion that simply contravene the laws of physics. Class 1 contained some startling predictions, starting with teleportation. Kaku explained how Austrian physicist Anton Zeilinger achieved the quantum teleportation of photons some 10 years ago, and that quantum teleportation of information between atoms of ytterbium has now been demonstrated. On this basis, Kaku expects to see the quantum teleportation of molecules within a decade – but conceded that human beings may take a little longer. Other remarkable class 1 impossibilities included death stars in the form of gamma ray bursters; what Kaku defined as telepathy, as demonstrated when stroke victims can control a laptop by thought; starships – he maintains that the logical way to explore the universe is via microscopic nanoships; and artificial intelligence that in the future will make the latest Japanese robot seem like a slow-witted insect. For class 2 impossibilities, Kaku returned to string theory, with the view that, on a timescale of centuries, time travel will be iStockphoto Beth Taylor listened to a lecture by a physicist who believes that almost anything could be possible in the future. “He expects to see the quantum teleportation of molecules within a decade.” possible through wormholes in space. Finally, he described “three types of future civilisation”, defined by the distances that we will have to travel to establish them – first to the planets, then to the stars, and eventually to other galaxies, even escaping into hyperspace or creating a baby universe on the way. By this stage the audience was struggling to tell credible prediction from pure science fiction. Whichever was the case, he had 300 of us hanging on every word, and thoroughly enjoying his vision of the potential of humankind to develop technologies beyond our wildest dreams today. In his introduction to the lecture, Oxford professor Peter Atkins drew a stark contrast between the deeply pessimistic mindset of philosophers and the splendid optimism of scientists. Michio Kaku’s lecture was a wonderful example not just of physics as great entertainment but also of a unique, unnerving, but genuinely optimistic vision of the future. Beth Taylor is the Institute’s director of communications.
