Gauge coupling unification and doublet-triplet splitting in SU(5) can be related via dynamical breaking using fermion condensates in the 10 and 24 representations, while 5-representation condensates are ruled out by proton decay.
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Krylov subspace methods efficiently describe quantum evolution, operator growth, and chaos in many-body systems, with metrics like Krylov complexity and applications in open systems, QFT, and quantum computing.
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Gauge coupling unification and doublet-triplet splitting via GUT dynamical breaking
Gauge coupling unification and doublet-triplet splitting in SU(5) can be related via dynamical breaking using fermion condensates in the 10 and 24 representations, while 5-representation condensates are ruled out by proton decay.
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Quantum Dynamics in Krylov Space: Methods and Applications
Krylov subspace methods efficiently describe quantum evolution, operator growth, and chaos in many-body systems, with metrics like Krylov complexity and applications in open systems, QFT, and quantum computing.