Christopher T. Hill

Christopher T. Hill
Born (1951-06-09) June 9, 1951
Neenah, Wisconsin
Nationality American
Institutions Fermilab
Alma mater M.I.T.
Caltech
Doctoral advisor Murray Gell-Mann
Known for Topcolor; Top quark condensate; Dimensional deconstruction; Theory of UHE Cosmic Rays; Soft Nambu-Goldstone Boson model of Dark Matter.

Christopher T. Hill (born June 9, 1951) is an American theoretical physicist at the Fermi National Accelerator Laboratory. He did undergraduate work in physics at M.I.T. (B.S., M.S., 1972), and graduate work at Caltech (Ph.D., 1977, Murray Gell-Mann). Hill's Ph.D. thesis, "Higgs Scalars and the Nonleptonic Weak Interactions" (1977) contains the first detailed discussion of the two-Higgs-doublet model.[1]

Hill has made numerous contributions to dynamical theories of electroweak symmetry breaking, and is an originator of the top quark infrared fixed point,[2] top quark condensates,[3] topcolor,[4][5] top-seesaw models,[6] and dimensional deconstruction.[7] He is also an originator of cosmological models of dark energy and dark matter based upon ultra-low mass (Nambu-Goldstone) bosons generally associated with neutrino masses.[8] With the late David Schramm (astrophysicist), he developed equations describing the evolution of the spectrum of ultra-high-energy (UHE) cosmic rays[9] and proposed modern theories of the origin of ultra-high-energy (UHE) nucleons and (UHE) neutrinos from grand unification relics, such as cosmic strings and monopole annihilation.[10][11][12] He has also proposed extensive particle physics based models of dark matter, originally in the "late time phase transition" in the early universe with Schramm and Fry. [13] Hill stirred up controversy when he correctly predicted that the chestnut of theorists, "supersymmetry," would not be discovered at the Large Hadron Collider in Geneve.[14]

Recently Hill has proposed that the origin of the Higgs boson mass and other physics may be associated with spontaneously broken scale symmetry, (Weyl symmetry)[15] and that the Planck mass, and the inflationary phase of the ultra-early universe, are generated together as part of a unified phenomenon.[16] This implies that there are no fundamental mass scales, and only dimensionless ratios of masses occur in nature. Hill has emphasized that this is sensible in quantum field theory only in D=4, and may be the selection rule that determines the observed four dimensions of space and time. Many of these ideas were elaborated in a talk given on the occasion of the celebration of the 75th birthday of Murray Gell-Mann in Santa Fe, New Mexico, (2005).[17]

Hill is a Fellow of the American Physical Society and formerly Head of the Theoretical Physics Department at Fermilab (2005 - 2012). He has co-authored three popular books about science, particle physics and cosmology, and the commissioning of the Large Hadron Collider, with Nobel laureate Leon Lederman.

Books

References

  1. "Higgs Scalars and the Nonleptonic Weak Interactions" (1977)
  2. "Quark and lepton masses from renormalization-group fixed points," Phys. Rev. D 24, 691–703 (1981)
  3. "Minimal dynamical symmetry breaking of the standard model," Phys. Rev. D 41, 1647–1660 (1990)
  4. "Topcolor Assisted Technicolor," Phys. Lett. B345 (1995) 483-489
  5. "Topcolor: top quark condensation in a gauge extension of the standard model," Phys. Lett. B266 (1991) 419-424
  6. "Top quark seesaw theory of electroweak symmetry breaking," Phys. Rev. D59 (1999) 075003,
  7. "Gauge invariant effective Lagrangian for Kaluza-Klein modes," Phys. Rev. D64 (2001) 105005
  8. "Cosmology with ultralight pseudo Nambu-Goldstone bosons," Phys. Rev. Lett. 75 (1995) 2077-2080
  9. "The Ultrahigh-Energy Cosmic Ray Spectrum," Phys. Rev. D31 (1985) 564
  10. "Ultrahigh-Energy Cosmic Rays from Superconducting Cosmic Strings," Phys. Rev. D36 (1987) 1007
  11. "Grand unified theories," topological defects and ultrahigh-energy cosmic rays, Phys. Rev. Lett. 69 (1992) 567-570
  12. "Monopolonium," Nucl. Phys. B224 (1983) 469
  13. "Cosmological Structure Formation from Soft Topological Defects "Comments Nucl.Part.Phys. 19 (1989) no.1, 25-39
  14. "Suppose We Don’t Find SUSY?" AIP Conf.Proc. 753 (2005) 459-472
  15. "Is the Higgs boson associated with Coleman-Weinberg dynamical symmetry breaking? "Phys. Rev. D 89, 073003 – Published 4 April 2014
  16. "Weyl Current, Scale-Invariant Inflation and Planck Scale Generation,"
  17. "Conjecture on the physical implications of the scale anomaly," FERMILAB-CONF-05-482-T e-Print: hep-th/0510177

External links

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