Flavour in the era of the LHC, 4th meeting

9 Oct 2006, 08:00 → 11 Oct 2006, 18:00 Europe/Zurich

CERN

Monday, 9 October

09:00 → 13:00 EDM and g-2 miniworkshop (VRVS: Virtual Room ROCK)

09:00 Welcome/review of the Report plans for EDM/g-2

Speaker: Dr Yannis Semertzidis (BNL)

Slides YkS_welcome_CERN_flavour_061009.pdf YkS_welcome_CERN_flavour_061009.ppt

09:15 The history of the neutron EDM

Before 1950 all theorists believed P (parity symmetry) and that there consequently could be no EDM for any elementary particle. Ramsey and Purcell [PR 78, 807 (1950)] pointed out that there was no experimental evidence for P in the case of nuclear forces so it should be tested. They proposed a search for a neutron EDM or dn, as a test of P. The 1953 neutron beam experiment at Oak Ridge showed dn<5x10^{-20} e- cm. In 1956 Lee and Yang suggest P failure in weak force, which was confirmed next year by Wu and Ambler. Many theorists argued that, despite this P failure, there should still be no EDM because of T (time reversal symmetry). In 1957 Ramsey and J.D. Jackson pointed out that there was no experimental evidence for T in nuclear forces so neutron EDM tests were continued. In 1964 Oak Ridge Beam experiment dn<10^{-21} e-cm. In 1964 Fitch et al discovered failure of CP in K0L so T would fail if CPT conserved. Theorists reverse their view and became very interested in our experiments and are puzzled by our very low EDM limits. Other labs begin EDM experiments on neutron and atoms. In 1967 Oak Ridge Beam Experiments dn<4x10^{-23} e-cm, and in 1973 Grenoble Beam dn<4x10^{-24} e-cm. In 1984 experiments with ultra cold neutrons stored in bottles by independent Russian group in St. Petersburg and by group in Grenoble dn<3x10^{-25} e-cm. In 1999 St. Petersburg group and Grenoble group independently dn<6.3x10^{-26} e- cm. In 2006 Grenoble group with geometric phase correction find dn<3.0x10^{-26} e-cm. Experimental results compared with theoretical predictions.

Speaker: Norman Ramsey (Harvard)

Slides 06-09-23_TD_Lee-_Searching_for_the_Electric_Dipole_Momen.pdf 06-09-23_TD_Lee-_Searching_for_the_Electric_Dipole_Momen.ppt

10:05 Electric Dipole Moments as probes of new physics

A review of the effective theory treatment of CP-odd operators contributing to EDMs, and the ensuing sensitivity to new CP-violating physics. As examples, new dimension-five operators in the MSSM, and a new Higgs-sector threshold allowing for electroweak baryogenesis, will be discussed.

Speaker: Adam Ritz (Victoria/Canada)

Slides flhc.pdf

11:00 Coffee break

11:15 Review of the neutron EDMs (ILL and SNS)

This talk will review three neutron EDM experiments: First, the room-temperature experiment at ILL, the results of which have just been published; second, the CryoEDM experiment at ILL that is now nearing the completion of its construction, and which promises an improvement in sensitivity of two orders of magnitude; and third, for the longer term, the cryogenic experiment that is planned to be built at the SNS in Oak Ridge, which is anticipated to have a sensitivity of below 1E-28 e.cm.

Speaker: P. Harris (Sussex)

Slides 0610_harris_edmtalk_cern.pdf 0610_harris_edmtalk_cern.ppt

12:10 The neutron experiment at PSI plus the muon EDM prospects

Status and plans for the neutron EDM experiment at PSI are updated. The idea for a compact muon EDM experiment with a sensitivity of 5x10^(-23) e-cm will be briefly discussed.

Speaker: K. Kirch (PSI)

Slides

• kirch_muon_CERN_1006.pdf
• kirch_muon_CERN_1006.ppt
• kirch_nEDM_CERN_1006.pdf

09:00 → 13:00 WG1, Monday morning

09:00 → 18:30 WG2, Monday morning (VRVS: Virtual Room EINSTEIN)

09:00 News on SuperKEKB physics reach

Speaker: Masashi Hazumi (KEK)

Slides Hazumi_SuperKEKB_CERNoct2006.pdf Hazumi_SuperKEKB_CERNoct2006.ppt

09:30 linear super B update

Speaker: Francesco Forti (Pisa)

Slides 20061009_Forti_SuperB__CERN_Workshop.pdf 20061009_Forti_SuperB__CERN_Workshop.ppt

10:00 LHCb Upgrade

Speaker: Franz Muheim (Edinburgh)

Slides muheim-lhcb-upgrade.pdf muheim-lhcb-upgrade.ppt

10:30 New physics signals using exclusive radiative B-decays

Speaker: Amarjit Soni (BNL)

Slides soni_cern_flavor_oct_06.pdf soni_cern_flavor_oct_06.ppt

11:00 break

11:30 B-> K* gamma TDCP asymmetry: (quasi) null test for SM

Speaker: Roman Zwicky (Durham IPPP)

Slides zwicky.pdf

12:00 Discovery potential for Bs->mu+mu- in CMS

Speaker: Christina Eggel (ETH Zurich)

Slides flavour.pdf

12:30 Search for the decay Bs-> mu+ mu- at LHCb

Speaker: Frederic Teubert (CERN)

Slides BsmumuLHCb.pdf BsmumuLHCb.ppt

12:00 → 18:00 WG1, Monday afternoon

14:00 short introduction

Speaker: conveners

Slides intro.pdf intro.ppt

14:05 CMS discovery potential for SUSY topologies

Speaker: Maria Spiropulu

Slides flavor-lhc.pdf

14:30 Using the e^+- mu^-+ + E_Tmiss signature in the search for supersymmetry and lepton flavour violation in neutralino decays

Speaker: Nikolai Krasnikov

Slides LFV-9-oct-06.pdf LFV-9-oct-06.ppt

14:55 Neutralino spin measurement with ATLAS

Speaker: Dr Andrea Ventura (INFN Lecce)

Slides NeutralinoSpinVentura_20061009_flavour.pdf NeutralinoSpinVentura_20061009_flavour.ppt

16:00 break

16:30 WG1, convener meeting

13:00 → 14:00 lunch break

14:00 → 18:30 EDM and g-2 miniworkshop (VRVS: Virtual Room ROCK)

14:00 How to measure g-2 with 15 GeV muons

Dilating the muon lifetime to 300 microsec can lead to ten times better accuracy. This can be achieved with a new design of storage ring using discrete magnets and calibrating the field by means of polarised protons in flight.

Speaker: F. Farley (Yale)

Slides g2-15GeV.pdf g2-15GeV.ppt

14:35 The deuteron EDM experiment

A theoretical motivation for an EDM search on the deuteron will be presented, together with the so-called resonance method. The basic features of this method will be discussed in some detail.

Speaker: G. Onderwater (KVI)

Slides OnderwaterFlavourOct06.pdf

15:25 Polarimetry for the dEDM method

Speaker: G. Venanzoni (Frascati)

Slides Polarimeter_for_dEDM_experiment.ppt

15:55 Coffee break

16:10 EDM of Proton and 3He

Speaker: W. Morse (BNL)

Slides BMorse_Proton_EDM_061009.pdf BMorse_Proton_EDM_061009.ppt

16:35 A plan of comprehensive investigation of systematic errors and spin coherence time for the deuteron resonance EDM experiment

Speaker: Y. Orlov (Cornell)

Slides YOrlov_061009.pdf

17:30 Spin and beam dynamics simulations

Speaker: A. Luccio (BNL)

Slides ALuccioEDM_Five_Fat_Quads.pdf ALuccioEDM_Five_Fat_Quads.ppt

17:45 EDM searches on atoms with deformed nuclei: Ra-225

Nuclei which are characterized by octupole deformation should have relatively large Schiff moments and therefore be particularly sensitive to T-violating interactions in the nucleus. Currently, the most stringent limits in this sector are set by measurements made at the University of Washington, which restrict the atomic EDM of Hg-199 to <2.1x10^{-28} e cm. We are developing an experiment around Ra-225, which is predicted to be two to three orders of magnitude more sensitive to T-violating interactions in the nucleus than Hg-199. The experimental scheme and our recent success in laser-trapping radium will be discussed along with other group's efforts to take advantage of this enhancement.

Speaker: J.R. Guest (Argonne)

Slides JRG_RadEDM_CERN_2006_3.pdf JRG_RadEDM_CERN_2006_3.ppt

14:00 → 18:50 WG2, Monday afternoon (VRVS: Virtual Room EINSTEIN)

14:00 B_s,d -> KK using QCD Factorization and flavour symmetries

Speaker: Sebastien Descotes-Genon (LPT Orsay)

Slides slides.pdf

14:30 Higher order QCD in exclusive B decays

Speaker: Guido Bell (LMU Munich)

Slides Bell_CERN06.pdf

15:00 Update on charm results

Speaker: David Asner (Carleton)

Slides flavorLHC_4show.pdf

15:30 Charm physics at LHCb

Speaker: Patrick Spradlin (Oxford)

Slides spradlin_2006.10Oct.09_LHCFlavorWorkshop.pdf

16:00 New Physics in b->sl+l-

Speaker: Christoph Bobeth (Dortmund)

Slides bobeth-LHCfl-oct.pdf

16:15 break

16:30 Convenors and study group contacts: Write-up matters

Slides

• FlavLHC_kaon_0610.pdf
• WG2_monday_afternoon.pdf
• WG2StudyGroups-interestedpeople.pdf

Tuesday, 10 October

09:00 → 13:00 EDM and g-2 miniworkshop (VRVS: Virtual Room ROCK)

09:00 (Cancelled, M. Kozlov covered some of the material) Overview of the electron EDM experiments

The experiment responsible for the current limit on the electron's electric dipole moment is described. A very brief overview of the many current efforts to push this limit is presented. Efforts underway at the University of Oklahoma to exploit the unique magnetic properties of PbF are described with a particular emphasis on the development of new resonant enhanced multiphoton ionization schemes.

Speaker: N. Shafer-Ray (Oklahoma Univ.)

Slides cern06_2.pdf cern06_2.ppt

09:50 Theory of molecular EDM experiments

Speaker: M. Kozlov (St. Petersburg)

Slides Kozlov_CERN.pdf

We discuss the relation between molecular EDM and electron EDM and how reliable the underlying molecular theory currently is.

10:20 EDM experiments as probes of SUSY

Speaker: Isabella Masina (Rome)

Slides IsaEDM2.pdf IsaEDM2.ppt

10:45 Coffee break

11:00 Measuring the Muon Anomaly to 0.25 ppm

A proposal has been approved at the BNL AGS to improve upon the muon magnetic anomaly measurement uncertainty by a factor of two, to 0.25 ppm. The current experimental value differs from the theoretical value by about 3 standard deviations. This suggests the possibility of new physics, and an increased data set could make the comparison between theory and experiment more definitive.

Speaker: J. Miller (Boston)

Slides JMiller-g-2-CERN.pdf JMiller-g-2-CERN.ppt

11:40 Evaluation of the hadronic vacuum polarization contribution to the muon g-2

The contribution from hadronic vacuum polarization to the muon anomalous magnetic moment is calculated with a dispersion relation using experimental data and perturbative QCD as input. Its uncertainty is presently limiting the Standard Model prediction, and is of the same order as the experimental error on g-2. The state of the art of the calculation is discussed and perpectives for future improvement are given.

Speaker: Andreas Hoecker (CERN)

Slides hoecker_flavourLHC06.pdf hoecker_flavourLHC06.ppt

12:15 Hadrons at VEPP-2M

The Budker Institute (Novosibirsk, Russia) is mostly dedicated to physics in $e^+ e^-$ colliders at relatively low energy. The VEPP-2M collider operated in 1992- 2000 at s = 0.36 to 1.4 GeV region and provided high luminosity for detectors CMD-2 and SND. High level of collected statistics as well as careful design, construction and operation of the detectors, and data processing allowed us to obtain numerous interesting physics results. From those, the most important one is measurement of hadron contribution to the anomalous magnetic moment of muon. At the present moment, most of our efforts are put on development and construction of the next generation Budker Institute collider, VEPP-2000 (which will operate at s = 0.4 to 2.0 GeV) and the new detector CMD-3. The second detector, SND, will be upgraded. We plan to obtain first luminosity in the VEPP-2000 ring by the end of this year (2006), and start first physics runs in 2007.

Speaker: S. Redin (Novosibirsk)

Slides SRedin_cern_06.ps

12:40 e+e- Hadronic Cross Section measurement at DAFNE with the KLOE detector

At the Frascati phi-factory DAFNE the pion form factor is measured by means of the "radiative return", i.e. by using events in which one of the collider electrons (positrons) has radiated an initial state radiation photon (ISR), lowering in such a way the invariant mass M(pi pi) of the two-pion-system. In a recent publication of the KLOE collaboration the initial state radiation photon had been required to be at small polar angles with respect to the beam axis, the so called "Small Angle analysis", using data collected in 2001. We show an update of this analysis, using 2002 data. We also present results from a new and complementary analysis in which the photon is tagged at large polar angles. Only like this the threshold region M^2(pi pi)< 0.35 GeV^2 becomes accessible.

Speaker: Debora Leone (Karlsruhe)

Slides leone_cern_101006.ppt

09:00 → 13:00 WG1, Tuesday morning

09:30 Lepton flavour violation in neutralino decays

Speaker: Ian Hinchliffe

Slides flav.pdf

10:00 Large Electroweak Logarithms in Heavy Quark Decay at LHC

Speaker: Alessia Gruzza

10:30 The relevance of electroweak effects in the overall t-channel single top production at LHC

Speaker: Claudio Verzegnassi

11:00 break

11:30 Contributions from dimension five and six effective operators to flavour changing top physics

Speaker: Pedro Miguel Martins Ferreira

Slides top-CERN.pdf top-CERN.ppt

12:00 Wtb Anomalous Top Quark Couplings

Speaker: Antonio Onofre

Slides Flavour_Oct06_Onofre_versao1.pdf Flavour_Oct06_Onofre_versao1.ppt

12:25 FCNC top decays

Speaker: Leonardo Benucci

Slides TopFCNC_FlavourWS_Oct06.ppt

09:00 → 13:00 WG2, Tuesday morning (VRVS: Virtual Room EINSTEIN)

09:00 B-> K*ll and extra dimensions

Speaker: Fulvia De Fazio (INFN Bari)

Slides defazio-cern06.pdf

09:30 Charm resonances in b-> sll

Speaker: Alexander Khodjamirian (Siegen)

Slides BKllcharm.pdf

10:00 B-> K*ll at LHCb

Speaker: Dr Ulrik Egede (Imperial College London)

Slides egede.pdf

10:30 B -> K*ll and B+-> tau nu from Belle

Speaker: Stefano Villa (Lausanne)

Slides talk.pdf

11:00 break

11:30 CKM angles from Babar

Speaker: Luca Cavoto (Rome)

Slides cavotocern9Oct.pdf cavotocern9Oct.ppt

12:00 ICPV results from Belle

Speaker: Masashi Hazumi (KEK)

Slides Hazumi_BelleTCPV_CERNoct2006.pdf Hazumi_BelleTCPV_CERNoct2006.ppt

12:30 B-> h+h- at LHCb

Speaker: Alessio Sarti (LNF -INFN)

Slides Slides.pdf Slides.ppt

13:00 → 14:00 Lunch break

14:00 → 18:30 WG1, Tuesday afternoon

14:00 Lepton mumber violation with muons at LHC

Speaker: Francisco del Aguila

Slides CERNPaco.pdf

14:30 Signals of new fermions at high transverse momenta

Speaker: Juan Antonio Aguilar-Saavedra

Slides high.pdf

15:00 Detection of heavy Majorana neutrinos and right-handed bosons

Speaker: Mikhail Kirsanov

Slides HEAVYNU12.pdf HEAVYNU12.ppt

14:00 → 18:30 WG2, Tuesday afternoon (VRVS: Virtual Room EINSTEIN)

14:00 Rare Hadronic b->s and b->d transitions (BaBar)

Speaker: Adrian Bevan (QMUL)

Slides LHCflav_bevan.pdf

14:30 A_SL, DeltaGamma_s, phi_s

Speaker: Sergey Burdin (Fermilab)

Slides bs_burdin_flhc20061010.pdf bs_burdin_flhc20061010.ppt

15:00 Study of the decay B_s->J/psi phi with the CMS detector

Speaker: Lotte Wilke (Uni Zuerich)

Slides 2006_10_10_Flavor_Workshop.pdf

15:30 Missing particle reconstruction using vertexing

Speaker: Andrey Starodumov (ETH Zuerich)

Slides nureco.pdf

15:50 Rare B-decay backgrounds studies - update

Speaker: Nicolai Nikitine (Moscow)

Slides 10okt2006-1.pdf 10okt2006-1.ppt

16:10 break

16:30 Tools (where we are)

Speaker: Sven Heinemeyer (IFCA (CSIC-UC))

Slides lhcfpTools.pdf

16:50 Flavor benchmarks

Speaker: Sven Heinemeyer (IFCA (CSIC-UC))

Slides lhcfpBenchmarks.pdf

17:10 CMS benchmark analysis

Speaker: Michael Schmitt (University of Florida)

Slides Final-LHC-Flavour-Workshop.pdf Final-LHC-Flavour-Workshop.ppt

17:30 Discussion

14:00 → 16:00 WG3, Tuesday afternoon

14:00 Leptogenesis and LFV in type I+II seesaw mechanism

Speaker: Stephane Lavignac (SPhT Saclay)

Slides CERN.pdf

14:30 Lepton Flavor Violation, Leptogenesis and Neutrino Mixing in QLC scenarios

Speaker: Werner Rodejohann (TU Muenchen)

Slides LHC_rodejohann.pdf

15:00 Flavour violation in ``minimal'' SUSY SU(5) models

We compare the patterns of the flavor violating effects which are radiatively induced via the neutrino Yukawa couplings in "minimal" SU(5) models with the Type I or Type II seesaw mechanism for the neutrino masses. We pay special attention to the ratio between the lepton flavor violations and the quark flavor violations, and especially to its dependence on the UV physics, such as the GUT parameters and cutoff scale.

Speaker: Toshifumi Yamashita (S.I.S.S.A.)

Slides

• FlavorAtLHC-TYamashita.pdf
• FlavorAtLHC-TYamashita.pdf
• FlavorAtLHC-TYamashita.pdf
• FlavorAtLHC-TYamashita.ppt
• FlavorAtLHC-TYamashita.ppt
• FlavorAtLHC-TYamashita.ppt
• FlavorAtLHC-TYamashita.ppt
• FlavorAtLHC-TYamashita.ppt

15:30 Unitarity in the leptonic sector

We determine the leptonic mixing matrix elements without assuming unitarity. To do this, we firstly develop the formalism to study neutrino oscillations and then we perform the fits. We realize that oscillation experiments alone are not enough to constrain all the matrix elements. However, by combining them with other electroweak data, we can determine all of them.

Speaker: Carla Biggio (Madrid)

Slides Biggio_Carla.pdf Biggio_Carla.ppt

16:30 → 18:10 EDM and g-2 miniworkshop (VRVS: Virtual Room ROCK)

16:30 New Measurement of the Electron Magnetic Moment and the Fine Structure Constant

Speaker: Gerald Gabrielse (Harvard)

Slides Gabrielse.pdf Gabrielse.ppt

17:20 More on EDM correlations in SUSY

Certain relations among EDMs can be viewed as indirect evidence for supersymmetry. I will report on recent work on EDM correlations which includes analyses of non-universal SUSY models.

Speaker: Oleg Lebedev (Bonn)

Slides lebedev.pdf

Wednesday, 11 October

09:00 → 13:00 WG1, Wednesday morning

09:00 E6 and the HIggs boson

Speaker: Gokhan Unel

Slides higgs-ia_fLHC_oct2006.pdf

09:30 Multi-W events at the LHC

Speaker: Geraldine Servant

10:00 4th family physics

Speaker: Erkcan Ozcan

Slides FFA_flhc_Oct06.pdf

10:30 Determination of the D-d mixing angle

Speaker: Gokhan Unel

Slides mixing-angle_fLHC_oct2006.pdf

11:00 break

11:30 CMS discovery potential for Z'/ED and spin discrimination

Speaker: Barbara Clerbaux

Slides flavour.pdf

09:00 → 13:00 WG2, Wednesday morning (VRVS: Virtual Room EINSTEIN)

09:00 Convenors and study group contacts: Write-up matters

Slides WG2_Wedneday.pdf

09:00 → 13:30 WG3, Wednesday morning

09:00 Prospects for a Muon to Electron Conversion Experiment at Fermilab

It is proposed to measure the rate of coherent muon to electron conversion in the field of a nucleus, without neutrino production, to a precision of 10^{-16} times the rate of ordinary muon capture on the nucleus. This is an example of charged lepton flavor violation. The measurement would be several thousand times more sensitive than previous experiments. A working group has been formed to examine the feasibility of performing the experiment at Fermilab. The group met in mid-September, 2006, at Fermilab. I will describe briefly the status and prospects of this project and what transpired at the meeting.

Speaker: Jim Miller (Boston)

Slides CERN-mu2etalk1.ppt

09:30 Search for B -> mu + e with LHCb

We discuss the LHCb potential for the LFV B->e mu decay and the possibility of constraining the leptoquark mass within the context of the Pati-Salam SU(4) model.

Speaker: Walter Bonivento (I.N.F.N. Cagliari, Italy)

Slides FlavWorkCERN2006.pdf

10:00 How can CP phases contribute to LFV processes ?

We discuss the dependence of the rates of LFV processes mu -> e + gamma, tau -> e + gamma, tau -> mu + gamma (l_i -> l_j + gamma) and their ratios in MSSM with right-handed neutrinos on CP phases. We focus on the case of quasi-degenerate in mass heavy Majorana neutrinos. The three types of light neutrino mass spectrum - normal hierarchical, inverted hierarchical and quasi-degenerate - are considered.

Speaker: Dr Tetsuo Shindou (SISSA)

Slides cern111006.pdf

10:30 Neutrino Masses and Mixing in Split Supersymmetry

We analyze the possibility of generating masses and mixing angles to neutrinos via bilinear R-Parity and lepton number violation alone (not trilinear).

Speaker: Dr Marco Aurelio Diaz (Universidad Catolica de Chile)

Slides MADcern06.pdf

11:00 break

11:30 Discussion of the Yellow Book contribution

13:00 → 14:00 Lunch break

14:00 → 18:00 Concluding plenary session (VRVS: Virtual Room EINSTEIN)

14:00 WG progress reports

Slides

• WG1.pdf
• WG1.ppt
• WG2summary_0610_mod.pdf
• WG3.pdf

15:00 Summary of the EDM and g-2 miniworkshop

Speaker: Dr Yannis Semertzidis (BNL)

Slides YkS_summary_CERN_flavour_061011.pdf YkS_summary_CERN_flavour_061011.ppt

15:30 Bs -> Xs gamma at NNLO

The B -> Xs gamma branching ratio estimate at the next-to-next-to-leading order in QCD is discussed. Constrains on certain beyond-SM effects are updated.

Speaker: Mikolaj Misiak (Warsaw)

Slides Misiak.pdf

16:30 Contributions of Magnetic Resonance to Other Sciences

One of the attractive features of fundamental research is the frequency with which new methods or discoveries in one narrow field of research eventually often make very important contributions to other fields. This has been conspicuously true of magnetic resonance, with which I have been associated ever since I.I. Rabi invented and demonstrated the method for the important but limited purpose of measuring nuclear magnetic moments. The following year we were surprised by the unexpected appearance of the H2 magnetic resonance, which we soon showed was due to the magnetic effects of the other proton and the rotating charged molecule; from these measurements we could also obtain important chemical and molecular information. We had another shock when we studied D2 and found the resonance curves were spread more widely for D2 than H2 even though the magnetic interactions should have been much smaller. We found we could explain this by assuming that the deuteron had an electric quadrupole moment and J. Schwinger pointed out that this would require the existence of a previously unsuspected electric tensor force between the neutron and the proton. With this, the resonance method was also giving new fundamental information about nuclear forces. In 1944, Rabi and I pointed out that it should be possible by the Dirac theory and our past resonance experiments to calculate exactly the hyperfine interaction between the electron and the proton in the hydrogen atom and we had two graduate students, Nafe and Nelson do the experiment and they found a disagreement which led J. Schwinger to develop the first successful relativistic quantum field theory and QED. In 1964, Purcell, Bloch and others detected magnetic resonance transitions by the effect of the transition on the oscillator, called NMR, making possible measurements on liquids, solids and gases and giving information on chemical shifts and thermal relaxation times T1 and T2. I developed a magnetic resonance method for setting a limit to the EDM of a neutron in a beam and with others for neutrons stored in a suitably coated bottle. Magnetic resonance measurements provide high stability atomic clocks. Both the second and the meter are now defined in terms of atomic clocks. Lauterbuhr, Mansfield and Damadian and others developed the important methods of using inhomogeneous magnetic fields to localize the magnetic resonance in a tissue sample producing beautiful and valuable magnetic resonance images, MRI’s, and fMRI’s.

Speaker: Norman Ramsey (Harvard University)

Slides 06-09-27__CERN-APOWR_PT-Magn_reson_contrib.pdf 06-09-27__CERN-APOWR_PT-Magn_reson_contrib.ppt