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Multicolor 3D Printing of Complex Intracranial Tumors in Neurosurgery
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Superconformal technicolor.

Aleksandr Azatov1, Jamison Galloway, Markus A Luty

  • 1Dipartimento di Fisica, Università di Roma La Sapienza and INFN Sezione di Roma, I-00185 Rome, Italy. aleksandr.azatov@roma1.infn.it

Physical Review Letters
|March 10, 2012
PubMed
Summary
This summary is machine-generated.

Supersymmetric theories with strong conformal sectors explain electroweak symmetry breaking and Higgs boson mass naturally. These models predict multiple heavy Standard Model particle productions, aligning with experimental data.

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Area of Science:

  • High Energy Physics
  • Theoretical Physics
  • Supersymmetry

Background:

  • Supersymmetry (SUSY) theories often require fine-tuning to explain the Higgs boson mass and electroweak symmetry breaking.
  • Strong conformal sectors in SUSY theories offer a potential solution to these naturalness problems.

Purpose of the Study:

  • To investigate scenarios where strong dynamics in supersymmetric theories lead to confinement and chiral symmetry breaking at the TeV scale.
  • To explore how these dynamics can naturally explain electroweak symmetry breaking and the Higgs boson mass, resolving the supersymmetry naturalness problem.

Main Methods:

  • Analyzing two specific scenarios of strong dynamics within supersymmetric theories.
  • Investigating the induction of vacuum expectation values for Higgs fields or sole responsibility of strong dynamics for electroweak symmetry breaking.
  • Evaluating precision electroweak fits and the generation of quark and lepton masses.

Main Results:

  • The Higgs boson mass can exceed the LEP bound without fine-tuning in these models.
  • A good precision electroweak fit is achievable.
  • Quark and lepton masses are generated without introducing flavor-changing neutral currents.

Conclusions:

  • Supersymmetric theories with strong conformal sectors provide a natural solution to the electroweak symmetry breaking and Higgs naturalness problems.
  • These models predict distinctive signatures, including the production of multiple heavy Standard Model particles (top quarks, W/Z bosons, bottom quarks) from the decay of strong sector resonances.