Derivation of rovibrational energy levels for H2+ and anti-H2- in the non-minimal SME, including quantum number dependence and sidereal/annual variations for Lorentz/CPT tests.
Prospects for testing Lorentz and CPT symmetry withH + 2 and ¯H− 2
3 Pith papers cite this work. Polarity classification is still indexing.
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Analysis indicates that vibrational frequency comparisons of H2+ and anti-H2- in Penning traps could reach 10^{-17} fractional accuracy for CPT tests using mostly available technology.
Extends effective QFT treatment of Lorentz and CPT violation to the hyperfine-Zeeman spectrum of H2+ and anti-H2- ions, demonstrating extraction of constraints on spin-dependent couplings from rovibrational transitions under magnetic field.
citing papers explorer
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Lorentz and CPT violation and the hydrogen and antihydrogen molecular ions III -- rovibrational spectrum and the non-minimal SME
Derivation of rovibrational energy levels for H2+ and anti-H2- in the non-minimal SME, including quantum number dependence and sidereal/annual variations for Lorentz/CPT tests.
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On the potential for high-accuracy spectroscopy of $\mathrm{H}_2^+$ and $\overline{\mathrm{H}}_2^-$ in Penning traps for a test of CPT invariance
Analysis indicates that vibrational frequency comparisons of H2+ and anti-H2- in Penning traps could reach 10^{-17} fractional accuracy for CPT tests using mostly available technology.
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Lorentz and CPT violation and the hydrogen and antihydrogen molecular ions II -- hyperfine-Zeeman spectrum
Extends effective QFT treatment of Lorentz and CPT violation to the hyperfine-Zeeman spectrum of H2+ and anti-H2- ions, demonstrating extraction of constraints on spin-dependent couplings from rovibrational transitions under magnetic field.