Testing strong-field QED close to the fully non-perturbative regime using aligned crystals

Abstract

Processes occurring in the strong-field regime of QED are characterized by background electromagnetic fields of the order of the critical field Fcr=m2c3/|e| in the rest frame of participating charges. It has been conjectured that if in their rest frame electrons/positrons experience field strengths of the order of Fcr/α3/2≈ 1600\,Fcr, with α≈ 1/137 being the fine-structure constant, their effective coupling with radiation becomes of the order of unity. Here we show that channeling radiation by ultrarelativistic electrons with energies of the order of a few TeV on thin tungsten crystals allows to test the predictions of QED close to this fully non-perturbative regime by measuring the angularly resolved single photon intensity spectrum. The proposed setup features the unique characteristics that essentially all electrons 1) undergo at most a single photon emission and 2) experience at the moment of emission and in the angular region of interest the maximum allowed value of the field strength, which at 2\;TeV exceeds Fcr by more than two orders of magnitudes in their rest frame.