DOCSLIB.ORG

Advancing Women in Physics, I L Di YOU!

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Advancing Women in Physics, I L Di YOU! Women in Physics: Few but Fantastic! Advancing • Marie Curie (1867-1934): Natural radioactivity Women in Physics, • Lise Meitner (1878-1968): Nuclear fission, beta decay IldiYOU!Including YOU! • Maria Goeppert Mayer (1906-1972): Nuclear shell model • Bonnie Fleming: Neutrino physics Third Conference for UdUndergra dua te Women in PhiPhysics • Linda Godwin : Low temperature physics & astronaut Yale University, New Haven, CT • Catherine Kallin: Theory of quantum materials 16 January 2009 • Young-Kee Kim: Experimental particle physics BlKlHtliBeverly Karplus Hartline • Luz Martinez-Miranda: Materials science, liquid crystals University of the District of Columbia, USA Carol Scarlett: Axion physics [email protected] • • SStSuzanne Staggs: CiiCosmic microwave bkdbackground • Yevgenia Zastavker: Physics of biological structures • YOUR NAME HERE Hartline 100116-Advancing Women in Physics, Including Yourself 1 2 Women in Physics Girls Approaching Half of High School Physics Students First the numbers and trends Source: AIP Hartline 100116-Advancing Women in Physics, Including Yourself 3 Hartline 100116-Advancing Women in Physics, Including Yourself 4 ~50% Increase in Girls Taking AP Slowly Rising Bachelor’s Physics Tests Since 1986 Percentages to Women Since 1966 But much lower than their presence in HS physics classes Physics ~21% Hartline 100116-Advancing Women in Physics, Including Yourself 5 Hartline 100116-Advancing Women in Physics, Including Yourself 6 Rising Female Percentage of Ph.D.s in STEM: Physics is at the Low End (1958-2003) Statistics on Women in Physics (USA) 50% 2005 47% Bio • 47% of high school students taking physics (2005) 45% 45% All • 21% of undergraduate degrees (class of '06) 40% 34% Chem • 17% of PhD recipients (class of '06) 35% All Fields 43 K Biological Sciences 7.4 K 6% of full pp()rofessors (2006) 30% Chemistry 21K2.1 K • Mathematics 1.2 K 25% Physics 1.3 K • 0% of faculty in 43% of physics departments (2006) Engineering 6.4 K 20% 27% Math • < 20 departments graduating ≥ 5 female BS (1999-03) 18% Engr 15% • ~10 departments producing ≥ 5 female PhD (1999-03) 17% Phys 10% 5% • Minorit y women? Almost none ! 0% 1958 1963 1968 1973 1978 1983 1988 1993 1998 2003 Data from AIP reports; summarized by Y. Zastavker National Science Foundation. Data compiled by AIP Statistical Research Center. & NSF 07-315 Hartline 100116-Advancing Women in Physics, Including Yourself 7 Hartline 100116-Advancing Women in Physics, Including Yourself 8 Significant Global Differences, AlmostNumber No of HispanicMinority and African-American Women female Earn PhDs Phyypsics Ph.D.s;in physics, But 1974-2003. Up 600% from ~1980 But Low Everywhere African-Americans 1976 - 1982 3 1983 - 1989 4 1990 - 1996 8 The problem for 1997 - 2003 20 minorities, especially Hispan ic- Amer icans minority women, 1976 - 1982 5 is MUCH 1983 - 1989 10 WORSE than the 1990 - 1996 23 problem for 1997 - 2003 19 women: 0 5 10 15 20 25 30 35 Number of Female PhDs Please help! National Science Foundation. Data compiled by AIP Statistical Research Center. Hartline 100116-Advancing Women in Physics, Including Yourself 9 Hartline 100116-Advancing Women in Physics, Including Yourself 10 A "Glass Ceiling" in All Countries Physics Needs MORE Women • Very few women in leadership • Women bring talent, ideas and approaches that positions enrich and advance physics. Yet . • Very few women full professors - Women are SCARCE. • Some assistant and associate - Senior women are VERY SCARCE. professors • Several post-docs • Some woman has to be the FIRST ONE in each • More graduate students department, subfield, program committee, • Even more undergraduates directorship, etc • Efforts by women & men are • A classically forbidden state, helping some women through the glass ceiling into leadership in • Often meeting colossal resistance some countries Physics needs YOU! Source: Economist 7/05 Hartline 100116-Advancing Women in Physics, Including Yourself 11 Hartline 100116-Advancing Women in Physics, Including Yourself 12 Barriers to Women in Physics • Expectations of society WHY SO FEW? • ImImageage ooff pphysicistshysicists ((nerdynerdy aandnd geegeeky)ky) • Few visible female role models http://www.see-sciencecenter.org/ • Parents, teachers, & neighbors What’s going on and how the world works • Family responsibilities: children, Whe ther we lik e it or not home, & husband • Limited physics career opportunities in develop ing countries • Covert or overt discrimination or harassment Hartline 100116-Advancing Women in Physics, Including Yourself 13 Hartline 100116-Advancing Women in Physics, Including Yourself 14 Bringing Up Girls & Boys Understanding the Challenges • Get dirty • Stay clean • Take things apart and put • Keep things whole, neat and • According to Dr. Virginia Valian (author of them toge ther (or mayb e no t) pritiistine Why SSl?So Slow? ) two kthlkey concepts help • Work with tools • Use paintbrushes artistically explain the difficulties girls and women face • Explore and build • Read and write entering and advancing in science and • Do sports and outdoor games • Play quietly indoors • In team projects: be the • In team projects: be a follower engineering leader and innovator and note-taker “Gender schema " • Be energetic & rambunctious • Cook following recipes • Think for himself • Don't question Accumulation of advantage Preparation for interest and success in science and engineering? • These hidden challenges are likely to be aggravated for under-represented minorities Hartline 100116-Advancing Women in Physics, Including Yourself 15 Hartline 100116-Advancing Women in Physics, Including Yourself 16 Gender "Schema" Accumulation of Advantage • Gender and ethnic "schema" are widely held • "Accumulation of advantage" refers to the cumulative beliefs about men, women, and people from long-term effect of small differences in the way males ethnic groups with respect to their competence , and females from different ethnic groups are treated career roles, and leadership ability throughout their lives – Lead us to overrate white men • At home and in school k – Lead us to underrate women and minorities • On the sports field You're the Thank you. • In the workplace smartest But IIm'man an Overheard secretary physicist. • In restaurants, stores, theatres,... I've met. at the Physics • If majority males experience "1.001" and others conference: experience "0.999" the difference accumulates profoundly • White males' experience ("1400" after 20 years) • Others' experience 0 ((0"0. 00067" after 20 years) Drawing © UFS, Inc, 3/6/04 Hartline 100116-Advancing Women in Physics, Including Yourself 17 Hartline 100116-Advancing Women in Physics, Including Yourself 18 Spouses of Women Physicists have Balancing Family and Career High Professional Commitments • Career/family conflicts are a serious challenge for women physicists around the world - Women have c hildren a t the age a p hys ic is t mus t s tar t her career, working long hours in temporary positions, often abroad • In most countries, women are responsible for children, home, cooking, laundry, . • It helps when men and women together share family and household duties and pleasures • Both boys and girls must be taught to expect this lifestyle • In some countries and cultures the expectations of females CLASH sharply with the requirements to succeed in physics Hartline 100116-Advancing Women in Physics, Including Yourself Hartline 100116-Advancing Women in Physics, Including Yourself 19 Bagenal 2004; from Zastavker 20 Other Tensions for Women in Science Or Business Leadership, Law, etc. • Being oneself versus fitting into the science culture • Making connections: political relationships versus meaningful relationships and performance ACTIONS • Controlling your destiny versus conforming to others' expectations ("Agency " ) PROGRESS - Moreover, expectations about women conflict with exppgectations about scientists and engineers • Achieving wholeness: freedom to align your ideas, OPPORTUNITIES personality, and passions while being and being perceived as professionally successful • Gaining self clarity: knowing what you need to do and be Adapted from M. Ruderman and P. Ohlott: Standing at the Crossroads Hartline 100116-Advancing Women in Physics, Including Yourself 21 Hartline 100116-Advancing Women in Physics, Including Yourself 22 Perspective 23rd IUPAP General Assembly (1999) • Concerned about very low participation of women Every public action which is not customary, in physics in most countries eihither is wrong, • Passed a resolution to form IUPAP Working Group on Women in Physics (WIP) or if it is right, - Marcia Barbosa (()Brazil), Chairp erson is a dangerous precedent. - Judy Franz (USA) IUPAP Liaison - 13 members from 12 countries It follows that nothing should ever be done • WIP mandate to survey the situation, report to for the first time. IUPAP, and suggest strategies to improve the --Francis M. Cornford (1908) situation Classics Professor in UK - Conducted international survey That hasn’ t stopped Women in Physics… - Organized 3 Int'l Conferences: Paris 2002; Rio 2005; Seoul 2008 Hartline 100116-Advancing Women in Physics, Including Yourself 23 Hartline 100116-Advancing Women in Physics, Including Yourself 24 IUPAP's Women in Physics Conferences: Women in Physics: The Third IUPAP I: Paris, 2002 II: Rio, 2005 International Conference • Seoul, Korea: October 7-10 WYP 2005 Event • Context: 57 IUPAP countries! Rio de Janeiro 2005 • Unanimous resolution ~150 physicists from approved by IUPAP General ~40 countries;
Load more

Recommended publications
  • April Meeting Goes Mile-High in 2004 Highlights New Techniques For
    January 2004 Volume 13, No. 1 NEWS http://www.physics2005.org A Publication of The American Physical Society http://www.aps.org/apsnews April Meeting Goes Junior Members Respond to Mile-High in 2004 APS Ethics Survey By Ernie Tretkoff The “Mile High” city of Denver, International Affairs, Colorado, will host as many as History of Physics, and Few physicists received for- to include not just research mis- 1500 physicists at the 2004 APS Graduate Student Af- mal ethics training as part of their conduct such as data fabrication, April meeting, to be held May 1-4 fairs; and the Topical education, though many are con- falsification, and plagiarism, but 2004. Groups on Few-Body cerned about professional ethics, also issues such as authorship, Attendees will be drawn from a Systems, Precision a study by the APS Ethics Task proper credit of previous work, wide range of research areas. APS Measurement and Force has found. and data handling and reporting. units represented at the meeting Fundamental Con- Photo Credit: The Denver Metro Convention and Visitors Bureau The task force report was sub- “This was an interesting and include the Divisions of Astrophys- stants, Gravitation, Denver has the 10th largest downtown in America. mitted to and accepted by the sobering project,” said task force ics, Nuclear Physics, Particles and Plasma Astrophysics, APS Council at its meeting in chair Frances Houle of the IBM Fields, Plasma Physics, and Com- and Hadronic Physics. approximately 45 invited sessions. November. Almaden Research Center in San putational Physics; the Forums on The scientific program will fea- There will also be numerous con- The task force, which was con- Jose.
    [Show full text]
  • Professor Helen Quinn
    Professor Helen Quinn Helen Quinn was born in Australia and grew up in the Melbourne suburbs of Blackburn and Mitcham. She attended Tintern Girls Grammar School in Ringwood East. She matriculated successfully and obtained a cadetship from the Australian Department of Meteorology to fund her studies at the University of Melbourne. After beginning her undergraduate studies at the University, her family migrated to San Francisco in the early 1960s. Professor Quinn finished her undergraduate, and eventually graduate education at Stanford University. After receiving her doctorate from Stanford in 1967, she held a postdoctoral position at Deutsches Elektronen Synchrotron in Hamburg, Germany, then served as a research fellow at Harvard in 1971, joining the faculty there in 1972. She returned to Stanford in 1976 as a visitor on a Sloan Fellowship and joined the staff at the Stanford Linear Accelerator Centre (SLAC) in 1977. In her current position as a theoretical physicist at the Stanford Linear Accelerator Center (SLAC), Professor Quinn has made important contributions towards unifying the strong, weak and electromagnetic interactions into a single coherent model of particle physics. In 2000 she was awarded the Dirac Medal and Prize for pioneering contributions to the quest for a unified theory of quarks and leptons and of the strong, weak, and electromagnetic interactions. The award, shared with Professors Howard Georgi of Harvard and Jogesh Pati of the University of Maryland, recognized Professor Quinn for her work on the unification of the three interactions, and for fundamental insights about charge-parity conservation. She has also recently developed basic analysis methods used to search for the origin of particle-antiparticle asymmetry in nature.
    [Show full text]
  • Highlights Se- Mathematics and Engineering— the Lead Signers of the Letter Exhibit
    June 2003 NEWS Volume 12, No.6 A Publication of The American Physical Society http://www.aps.org/apsnews Nobel Laureates, Industry Leaders Petition April Meeting Prizes & Awards President to Boost Science and Technology Prizes and Awards were presented to seven- Sixteen Nobel Laureates in that “unless remedied, will affect call for “a Presidential initiative for teen recipients at the Physics and sixteen industry lead- our scientific and technological FY 2005, following on from your April meeting in Philadel- ers have written to President leadership, thereby affecting our budget of FY 2004, and focusing phia. George W. Bush to urge increas- economy and national security.” on the long-term research portfo- After the ceremony, ing funding for physical sciences, The letter, which is dated April lios of DOE, NASA, and the recipients and their environmental sciences, math- 14th, also indicates that “the Department of Commerce, in ad- guests gathered at the ematics, computer science and growth in expert personnel dition to NSF and NIH,” that, Franklin Institute for a engineering. abroad, combined with the di- “would turn around a decade-long special reception. The letter, reinforcing a recent minishing numbers of Americans decline that endangers the future Photo Credit: Stacy Edmonds of Edmonds Photography Council of Advisors on Science and entering the physical sciences, of our nation.” The top photo shows four of the five women recipients in front of a space-suit Technology report, highlights se- mathematics and engineering— The lead signers of the letter exhibit. They are (l to r): Geralyn “Sam” Zeller (Tanaka Award); Chung-Pei rious funding problems in the an unhealthy trend—is leading were Burton Richter, director Michele Ma (Maria-Goeppert Mayer Award); Yvonne Choquet-Bruhat physical sciences and related fields corporations to locate more of emeritus of SLAC, and Craig (Heineman Prize); and Helen Edwards (Wilson Prize).
    [Show full text]
  • 2005 Annual Report American Physical Society
    1 2005 Annual Report American Physical Society APS 20052 APS OFFICERS 2006 APS OFFICERS PRESIDENT: PRESIDENT: Marvin L. Cohen John J. Hopfield University of California, Berkeley Princeton University PRESIDENT ELECT: PRESIDENT ELECT: John N. Bahcall Leo P. Kadanoff Institue for Advanced Study, Princeton University of Chicago VICE PRESIDENT: VICE PRESIDENT: John J. Hopfield Arthur Bienenstock Princeton University Stanford University PAST PRESIDENT: PAST PRESIDENT: Helen R. Quinn Marvin L. Cohen Stanford University, (SLAC) University of California, Berkeley EXECUTIVE OFFICER: EXECUTIVE OFFICER: Judy R. Franz Judy R. Franz University of Alabama, Huntsville University of Alabama, Huntsville TREASURER: TREASURER: Thomas McIlrath Thomas McIlrath University of Maryland (Emeritus) University of Maryland (Emeritus) EDITOR-IN-CHIEF: EDITOR-IN-CHIEF: Martin Blume Martin Blume Brookhaven National Laboratory (Emeritus) Brookhaven National Laboratory (Emeritus) PHOTO CREDITS: Cover (l-r): 1Diffraction patterns of a GaN quantum dot particle—UCLA; Spring-8/Riken, Japan; Stanford Synchrotron Radiation Lab, SLAC & UC Davis, Phys. Rev. Lett. 95 085503 (2005) 2TESLA 9-cell 1.3 GHz SRF cavities from ACCEL Corp. in Germany for ILC. (Courtesy Fermilab Visual Media Service 3G0 detector studying strange quarks in the proton—Jefferson Lab 4Sections of a resistive magnet (Florida-Bitter magnet) from NHMFL at Talahassee LETTER FROM THE PRESIDENT APS IN 2005 3 2005 was a very special year for the physics community and the American Physical Society. Declared the World Year of Physics by the United Nations, the year provided a unique opportunity for the international physics community to reach out to the general public while celebrating the centennial of Einstein’s “miraculous year.” The year started with an international Launching Conference in Paris, France that brought together more than 500 students from around the world to interact with leading physicists.
    [Show full text]
  • Long Term Planning Theme at Annual Users' Meeting
    dn p Events and Happenings Ah Ah~~ in thp SI AC Communitv I Long Term Planning Theme at Annual Users' Meeting "WHAT ARE THE DRIVING questions in high-energy physics for the next 25 years? What are the tools that will answer those questions?" These and other questions were posed by Peter Rosen, Associate Director in the DOE's Office of Science, during the annual SLUO Meeting in July. Over 200 users came to SLAC from around the world for a discussion about the science and politics of high energy physics (HEP). Speaking at the meeting, SLAC Director Jonathan Dorfan and Fermilab Director Michael Witherell expressed similar sentiments. Dorfan suggested that a different planning model is needed for the new challenges facing big science. "Previously we looked at a next generation machine and we endorsed that one s facility. It would be much better for the field if we which is intended to provide an update to the HEPAP looked 20-30 years ahead and developed a roadmap for subpanel. SLUO Chairman Ray Frey showed the future based on physics themes, not an emphasis transparenciesfrom Fermilab's Chris Quigg, who was on a machine," said Dorfan. He added that such a unable to attend the meeting. roadmap must be "world-based" since HEP is a global According to Dorfan, the near future will see data enterprise. "Scarce resources of money and people from several machines that will test the veracity of the necessitate a more international collaboration. We Standard Model, but he believes we have to be able to cannot risk regionalism." use those machines to a greater advantage.
    [Show full text]
  • Rejoice in Slac's Nobel Prize
    I4* 0S r^ * *|_ SEvents and Happenings e^I n ter~actir~o^n Poin t in the SLAC Community 1-=I§~~lJ ; I I. U |l IU IINovember 1990, Vol. ,1, No. 7 _ Friedman,Kendall, Taylor, and Us, Too ALL REJOICE IN SLAC'S NOBEL PRIZE by Bill Kirk THE NEWS RELEASE from Stockholm started this way: The Royal Swedish Academy of Sciences has decided to award the 1990 Nobel Prize in Physics jointly to Professors Jerome I. Friedman and Henry W. Kendall, both of the Massachusetts Institute of Technology, Cambridge, MA, USA, and RichardE. Taylor of Stanford University, Stanford, CA, USA, for their pioneering investigations concerning deep inelastic scattering of electrons on protons and bound neutrons, which have been of essential importance for the development of the quark model in particle physics. The news release then went on to describe the significance of this SLAC- MIT experiment, tracing the series of discoveries in this century that have disclosed ever-smaller layers in the structure of matter: atom, nucleus, proton, quark.... It was interesting to read about the earlier work of such (cont'd. on pg. 2) 1 1970 SLAC Employees (cont'd. from pg. 1) renowned physicists as Ruther- I tHere in 1990 ford, Heisenberg, Chadwick Hofstadter and Gell-Mann. These Louise Addis John Cockroft and others are the people who James Alexander Fred Coffer Matthew Allen Gerarda Collet paved the way for the SLAC-MIT Richard Allen Harry Collins group to know what experiments Eugenio Alvarado Carol Colon Sal Alvarado Steven Combs to do and even, to some extent, Roger Anderson Nada Comstock how to do them.
    [Show full text]
  • IOP, Quarks Leptons and the Big Bang (2002) 2Ed Een
    Quarks, Leptons and the Big Bang Second Edition Quarks, Leptons and the Big Bang Second Edition Jonathan Allday The King’s School, Canterbury Institute of Physics Publishing Bristol and Philadelphia c IOP Publishing Ltd 2002 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior permission of the publisher. Multiple copying is permitted in accordance with the terms of licences issued by the Copyright Licensing Agency under the terms of its agreement with the Committee of Vice- Chancellors and Principals. British Library Cataloguing-in-Publication Data A catalogue record for this book is available from the British Library. ISBN 0 7503 0806 0 Library of Congress Cataloging-in-Publication Data are available First edition printed 1998 First edition reprinted with minor corrections 1999 Commissioning Editor: James Revill Production Editor: Simon Laurenson Production Control: Sarah Plenty Cover Design: Fr´ed´erique Swist Marketing Executive: Laura Serratrice Published by Institute of Physics Publishing, wholly owned by The Institute of Physics, London Institute of Physics Publishing, Dirac House, Temple Back, Bristol BS1 6BE, UK US Office: Institute of Physics Publishing, The Public Ledger Building, Suite 1035, 150 South Independence Mall West, Philadelphia, PA 19106, USA Typeset in LATEX2ε by Text 2 Text, Torquay, Devon Printed in the UK by MPG Books Ltd, Bodmin, Cornwall Contents
    [Show full text]
  • Glossary of Terms Absorption Line a Dark Line at a Particular Wavelength Superimposed Upon a Bright, Continuous Spectrum
    Glossary of terms absorption line A dark line at a particular wavelength superimposed upon a bright, continuous spectrum. Such a spectral line can be formed when electromag- netic radiation, while travelling on its way to an observer, meets a substance; if that substance can absorb energy at that particular wavelength then the observer sees an absorption line. Compare with emission line. accretion disk A disk of gas or dust orbiting a massive object such as a star, a stellar-mass black hole or an active galactic nucleus. An accretion disk plays an important role in the formation of a planetary system around a young star. An accretion disk around a supermassive black hole is thought to be the key mecha- nism powering an active galactic nucleus. active galactic nucleus (agn) A compact region at the center of a galaxy that emits vast amounts of electromagnetic radiation and fast-moving jets of particles; an agn can outshine the rest of the galaxy despite being hardly larger in volume than the Solar System. Various classes of agn exist, including quasars and Seyfert galaxies, but in each case the energy is believed to be generated as matter accretes onto a supermassive black hole. adaptive optics A technique used by large ground-based optical telescopes to remove the blurring affects caused by Earth’s atmosphere. Light from a guide star is used as a calibration source; a complicated system of software and hardware then deforms a small mirror to correct for atmospheric distortions. The mirror shape changes more quickly than the atmosphere itself fluctuates.
    [Show full text]
  • DPF NEWSLETTER - December 31, 1996
    DPF NEWSLETTER - December 31, 1996 To: Members of the Division of Particles and Fields From: Jonathan Bagger, Secretary-Treasurer, [email protected] 1996 DPF Elections Howard Gordon was elected Vice-Chair of the DPF. Pat Burchat and Kay Kinoshita were elected to the Executive Committee. The 1997 members of the DPF Executive Committee and the final years of their terms are Chair: Paul Grannis (1997) Chair-Elect: Howard Georgi (1997) Vice-Chair: Howard Gordon (1997) Past Chair: Frank Sciulli (1997) Secretary-Treasurer: Jonathan Bagger (1997) Division Councillor: Henry Frisch (1997), George Trilling (1998) Executive Board: Pat Burchat (1999), Tom Devlin (1998), Martin Einhorn (1997), Kay Kinoshita (1999), John Rutherfoord (1997), Heidi Schellman (1998) Treasurer of APS Harry Lustig retired as Treasurer of the APS on November 11. At its December meeting, the DPF Executive Committee approved the following statement: The Division of Particles and Fields recognizes the important contributions of Harry Lustig to the American Physical Society and all its members. During his tenure as Treasurer, the Society has regained a sound financial basis through his dedicated and prudent judgment. His counsel has been important far beyond the financial realm. The DPF Executive Committee wishes to sincerely thank him for his many contributions to all its member scientists. Lustig has been replaced by Thomas McIlrath, Associate Dean for Research and Graduate Studies at the University of Maryland, College Park. McIlrath is a professor in the Institute for Physical Science and Technology at the University of Maryland and a staff physicist for the National Institute of Standards and Technology in Gaithersburg.
    [Show full text]
  • Interaction Point December 2000, Vol
    Events and Happenings in the SLAC Community Interaction Point December 2000, Vol. 11 ,No. 12 SSRL Users Showcase Success THE 27TH ANNUAL SSRL Users' Meeting last month highlighted recent achievements and advancements in science and technology generated by research done at the Synchrotron Lab. Pat Dehmer, Director of the DOE ct Office of Basic Energy Sciences, commented on "the bO good BES budget news" and the favorable review by the Basic Energy Sciences Advisory Committee (BESAC) panel on the linac coherent light source (LCLS) conceptual design. 0 After SLAC Director Jonathan Dorfan welcomed 0 participants, SSRL Associate Director Keith Hodgson P!S gave an overview of achievements and activities for the past year. Jo St6hr's presentation on the first five LCLS experiments was greeted with excitement, in anticipation of the potential of that machine. The second session was devoted to X-Ray I he rarrelW. Lytle Awara was presentea to Roger rrtnce (ExxonMobil) at the Users' Meeting dinner. Prince was Materials Science with talks on x-ray imaging selected for being an "outstanding industrial scientist techniques and state-of-the-art photoemission studies. making important technical and scientific discoveries Katharina Baur (SSRL) discussed the research studies using synchrotron radiation and being remarkably underway to analyze trace contamination on the surface effective at fostering collaborations between industrial of practical silicon wafers using the technique of Total and academic users and SSRL staff " Graham George Reflection X-Ray Fluorescence (TXRF). Several (SSRL) made the presentation and went down an amusing semiconductor companies are involved in this research laundry list of Prince's experimental sample interests from sulfur in fuels to bee pollen.
    [Show full text]
  • Memories of a Theoretical Physicist
    Memories of a Theoretical Physicist Joseph Polchinski Kavli Institute for Theoretical Physics University of California Santa Barbara, CA 93106-4030 USA Foreword: While I was dealing with a brain injury and finding it difficult to work, two friends (Derek Westen, a friend of the KITP, and Steve Shenker, with whom I was recently collaborating), suggested that a new direction might be good. Steve in particular regarded me as a good writer and suggested that I try that. I quickly took to Steve's suggestion. Having only two bodies of knowledge, myself and physics, I decided to write an autobiography about my development as a theoretical physicist. This is not written for any particular audience, but just to give myself a goal. It will probably have too much physics for a nontechnical reader, and too little for a physicist, but perhaps there with be different things for each. Parts may be tedious. But it is somewhat unique, I think, a blow-by-blow history of where I started and where I got to. Probably the target audience is theoretical physicists, especially young ones, who may enjoy comparing my struggles with their own.1 Some dis- claimers: This is based on my own memories, jogged by the arXiv and IN- SPIRE. There will surely be errors and omissions. And note the title: this is about my memories, which will be different for other people. Also, it would not be possible for me to mention all the authors whose work might intersect mine, so this should not be treated as a reference work.
    [Show full text]
  • January 1998 Communication, APS Centennial Are Sessler’S Top Priorities in 1998
    Education Outreach A P S N E W S Insert JANUARY1998 THE AMERICAN PHYSICAL SOCIETY VOLUME 7, NO 1 APS NewsTry the enhanced APS News-online: [http://www.aps.org/apsnews] Langer Chosen as APS Vice- Shuttle Physics President in 1997 Election embers of The view, page 2). M American Physi- In other election re- cal Society have elected sults, Daniel Kleppner of James S. Langer, a profes- the Massachusetts Insti- sor of physics at the tute of Technology was University of California, elected as chair-elect of Santa Barbara, to be the the Nominating Com- Society’s next vice-presi- mittee, which will be dent. Langer’s term chaired by Wick Haxton begins on January 1 , (University of Washing- when he will succeed ton) in 1998. The Jerome Friedman (Massa- Nominating Committee chusetts Institute of selects the slate of candi- Technology), who will dates for vice-president, become president-elect. general councillors, and Langer will become APS president in its own chair-elect. Its choices are then 2000. The 1998 president is Andrew Sessler voted on by the APS membership. Beverly (Lawrence Berkeley Laboratory) (see inter- K. Berger (Oakland University), Cynthia McIntyre (George Mason University), Roberto Peccei (University of California, Life APS member, Roger K. Crouch, a payload specialist aboard the 83rd flight of the Los Angeles), and Helen Quinn (Stanford United States Space Shuttle, Columbia, volunteered to take with him an APS paperweight Inside Linear Accelerator Center) were elected commemorating the 100 year anniversary of the electron and 50 year anniversary of the News as general councillors. transistor.
    [Show full text]