slide1
Download
Skip this Video
Download Presentation
Klaus Jungmann ECT*, Trento, 21-25 June 2004 Fundamental Interactions

Loading in 2 Seconds...

play fullscreen
1 / 14

Klaus Jungmann ECT*, Trento, 21-25 June 2004 Fundamental Interactions - PowerPoint PPT Presentation


  • 103 Views
  • Uploaded on

Klaus Jungmann ECT*, Trento, 21-25 June 2004 Fundamental Interactions. Welcome to ECT* and Trento for Workshop on Fundamental Inetractions Rob Timmermans Christian Weinheimer Klaus Jungmann. Fundamental Interactions. ECT*, June 21-25, 2004. What is Fundamental

loader
I am the owner, or an agent authorized to act on behalf of the owner, of the copyrighted work described.
capcha
Download Presentation

PowerPoint Slideshow about 'Klaus Jungmann ECT*, Trento, 21-25 June 2004 Fundamental Interactions' - diata


An Image/Link below is provided (as is) to download presentation

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.


- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -
Presentation Transcript
slide1
Klaus Jungmann

ECT*, Trento, 21-25 June 2004

Fundamental Interactions

Fundamental Interactions

slide2
Welcome

to

ECT* and Trento

for

Workshop

on

Fundamental Inetractions

Rob Timmermans

Christian Weinheimer

Klaus Jungmann

Fundamental Interactions

ect june 21 25 2004
Fundamental

Interactions

ECT*, June 21-25, 2004

  • What is Fundamental
  • Forces and Symmetries
  • Fundamental Fermions
  • Discrete Symmetries
  • Properties of Known Basic Interactions
  •  only scratching some examples
slide4
ECT*, June 21-25, 2004

Fundamental

Interactions

Klaus Jungmann, Kernfysisch Versneller Instituut,Groningen

Drawing on :

  • Work of NuPECC Long Range Plan Working group on Fundamental

Interactions, 2003 :

K. Jungmann (NL), H. Abele (D), L. Corradi (I), P. Herczeg (USA),

I.B. Khriplovich (RU), O. Nviliat (F), N. Severijns (B),

L. Simons (CH), C. Weinheimer (D), H.W. Wilschut (NL)

H. Leeb (A), C. Bargholtz (S)

Assisted by: W. Heil, P. Indelicato, F. Maas, K. Pachucki, R.G Timmermans, C. Volpe, K. Zuber

  • NSAC Long Range Plan 2002
  • EURISOL Physics Case 2004
slide5
Gravitation

Gravitation

Electro

-

Electro

-

Magnetism

Magnetism

Magnetism

Magnetism

Maxwell

Electricity

Electricity

?

?

Physics within the Standard Model

Glashow,

Salam, t'Hooft,

Veltman,Weinberg

Weak

Weak

Electro

-

Weak

Electro

-

Weak

Standard Model

Standard Model

Strong

Strong

Grand

Grant

Unification

Unification

not yet known?

not yet known?

Fundamental Interactions – Standard Model

Physics outside Standard Model

Searches for New Physics

Fundamental Interactions

slide6
Fundamental Fermions
  • Neutrinos
    • Neutrino Oscillations
    • Neutrino Masses
  • Quarks
    • Unitarity of CKM Matrix
  • Rare decays
    • Baryon Number
    • Lepton Number/Lepton Flavour
  • New Interactions in Nuclear and Muon b-Decay

Fundamental Interactions

slide7
Discrete Symmetries
  • Parity
    • Parity Nonconservation in Atoms
    • Nuclear Anapole Moments
    • Parity Violation in Electron-Scattering
  • Time Reversal and CP-Violation
    • Electric Dipole Moments
    • R and D Coefficients in b-Decay
  • CPT Invariance

Fundamental Interactions

slide8
Properties of Known Basic Interactions
  • Electromagnetism and Fundamental Constants
    • QED, Lamb Shift
    • Muonium and Muon g-2
    • Muonic Hydrogen and Proton Radius
    • Exotic Atoms
    • Does aQED vary with time?
  • QCD
    • Strong Interaction Shift
    • Scattering Lengths
  • Gravity
    • Hints of strings/Membranes?

Fundamental Interactions

slide9
of NuPECC working group 2003

Recommendations

Physics Topics

  • Theoretical Support
  • Positions at Universities
    • Experimentalists and Theorists
  • High Power Proton Driver
    • Several MW
    • Target Research
  • Cold and Ultracold Neutrons
  • Low Energy Radioactive Beams
  • Improved Trapping Facilities
  • Underground Facilities

Adequate Environment

Human resources

Facilities

  • The Nature of Neutrinos
    • Oscillations/ Masses/ 0n2b-decay
  • T and CP Violation
    • edm’s, D (R) coeff. in b-decays, D0
  • Rare and Forbidden Decays
    • 0n2b-decay, n-nbar, M-Mbar, meg,
    • m 3e, m N N e
  • Correlations in b-decay
    • non V-A in b-decay
  • Unitarity of CKM-Matrix
    • n-, p-b, (superallowed b), K-decays
  • Parity Nonconservation in Atoms
    • Cs, Fr, Ra, Ba+, Ra+
  • CPT Conservation
    • n, e, p, m
  • Precision Studies within The Standard Model
    • Constants, QCD,QED, Nuclear Structure

Fundamental Interactions

slide10
Recommendations

Physics Topics

  • Theoretical Support
  • Positions at Universities
    • Experimentalists and Theorists
  • High Power Proton Driver
    • Several MW

clearly indication as future priority needed

    • Target Research

starting soon

  • Cold and Ultracold Neutrons
  • Low Energy Radioactive Beams
  • Improved Trapping Facilities
  • Underground Facilities

Adequate Environment

Human resources

Facilities

  • The Nature of Neutinos
    • Oscillations/ Masses/ 0n2b-decay
  • T and CP Violation
    • edm’s, D (R) coeff. in b-decays, D0
  • Rare and Forbidden Decays
    • 0n2b-Decay, n-nbar, M-Mbar, meg,

m 3e, m N N e

  • Correlations in b-decay
    • non V-A in b-decay
  • Unitarity of CKM-Matrix
    • n-, p-b, (superallowed b) -decays
  • Parity Nonconservation in Atoms
    • Cs, Fr, Ra
  • CPT Conservation
    • n, e, p, m
  • Precision Studies within The Standard Model
    • Constants, QCD,QED, Nuclear Structure

Requires new istallations and major experimental setups

Fundamental Interactions

slide11
Relating to a MW Proton Machine

Recommendations

Physics Topics

  • Theoretical Support
  • Positions at Universities
    • Experimentalists and Theorists
  • High Power Proton Driver
    • Several MW
    • Target Research
  • Cold and Ultracold Neutrons
  • Low Energy Radioactive Beams
  • Improved Trapping Facilities
  • Underground Facilities

Adequate Environment

Human resources

Facilities

  • The Nature of Neutrinos
    • Oscillations/ Masses/ 0n2b-decay
  • T and CP Violation
    • edm’s, D (R) coeff. in b-decays, D0
  • Rare and Forbidden Decays
    • 0n2b-decay, n-nbar, M-Mbar, meg,
    • m 3e, m N N e
  • Correlations in b-decay
    • non V-A in b-decay
  • Unitarity of CKM-Matrix
    • n-, p-b, (superallowed b), K-decays
  • Parity Nonconservation in Atoms
    • Cs, Fr, Ra, Ba+, Ra+
  • CPT Conservation
    • n, e, p,m
  • Precision Studies within The Standard Model
    • Constants, QCD,QED, Nuclear Structure

Fundamental Interactions

slide12
Recommendations

Physics Topics

  • Theoretical Support
  • Positions at Universities
    • Experimentalists and Theorists
  • High Power Proton Driver
    • Several MW
    • Target Research
  • Cold and Ultracold Neutrons
  • Low Energy Radioactive Beams
  • Improved Trapping Facilities
  • Underground Facilities

Adequate Environment

Human resources

Facilities

Moderate upgrades and most of all stable running of present facilities

  • The Nature of Neutinos
    • Oscillations/ Masses/ 0n2b-decay
  • T and CP Violation
    • edm’s, D (R) coeff. in b-decays, D0
  • Rare and Forbidden Decays
    • 0n2b-Decay, n-nbar, M-Mbar, meg,

m 3e, m N N e

  • Correlations in b-decay
    • non V-A in b-decay
  • Unitarity of CKM-Matrix
    • n-, p-b, (superallowed b) -decays
  • Parity Nonconservation in Atoms
    • Cs, Fr, Ra
  • CPT Conservation
    • n, e, p, m
  • Precision Studies within The Standard Model
    • Constants, QCD,QED, Nuclear Structure

Fundamental Interactions

slide13
Recommendations

Physics Topics

  • Theoretical Support
  • Positions at Universities
    • Experimentalists and Theorists
  • High Power Proton Driver
    • Several MW
    • Target Research
  • Cold and Ultracold Neutrons
  • Low Energy Radioactive Beams
  • Improved Trapping Facilities
  • Underground Facilities

Adequate Environment

Human resources

Facilities

  • The Nature of Neutinos
    • Oscillations/ Masses/ 0n2b-decay
  • T and CP Violation
    • edm’s, D (R) coeff. in b-decays, D0
  • Rare and Forbidden Decays
    • 0n2b-Decay, n-nbar, M-Mbar, meg,

m 3e, m N N e

  • Correlations in b-decay
    • non V-A in b-decay
  • Unitarity of CKM-Matrix
    • n-, p-b, (superallowed b) -decays
  • Parity Nonconservation in Atoms
    • Cs, Fr, Ra
  • CPT Conservation
    • n, e, p, m
  • Precision Studies within The Standard Model
    • Constants, QCD,QED, Nuclear Structure

Theory is needed to guide all activities

No research without well qualified,

enthuisiastic people

Fundamental Interactions

slide14
Welcome

to

ECT* and Trento

for

Workshop

on

Fundamental Inetractions

Rob Timmermans

Christian Weinheimer

Klaus Jungmann

Fundamental Interactions

ad