Over the last two decades, we have seen two revolutions in gamma-ray astronomy: (i) in GeV energy band thanks to the Fermi gamma-ray satellite mission and (ii) at TeV energies after the exploitation of the full potential of the so-called Imaging Atmospheric Cherenkov technique.  

　　These days we are witnessing a new revolution, this time in the UHE, above 100 TeV, band. One can predict with confidence that for the next ten years (at least), LHAASO will dominate in the field and play the major role in the upcoming developments. This is for future.  

　　For the results presented in the published Nature article - we claim the first unbiased and unambiguous discovery of both electron and proton PeVatrons. These are perfectly designed by Nature Cosmic Ray Factories - incredibly efficient machines accelerating particles at a rate close to the absolute theoretical margin determined by the classical electrodynamics and magnetohydrodynamics. At least one source from the published list - Crab Nebula - operates as an Electron PeVatron, and at least one source - Cygnus Cocoon - is powered by a Proton PeVatron. The gamma-ray spectra of both objects continue to and beyond 1 PeV.  

　　Cygnus Cocoon has direct relation to the century-old mystery of the origin of Galactic Cosmic Rays. The famous Cygnus OB stellar cluster inside this diffuse gamma-ray structure is the most likely accelerator supplying Cygnus Cocoon with multi-PeV protons. On the other hand, we do not see in the LHAASO list sources that could be firmly identified with SNRs. This still does not exclude but shakes the standard paradigm which assumes that SNRs are the main contributors to the Galactic Cosmic Rays up to the so-called knee around 1 PeV. On the other hand, the LHAASO results provide a hint that clusters of young, very-massive stars should be considered a serious alternative or addition to SNRs. Moreover, using the chess language, I would say that in the PeVatron competition “young stars versus dead stars”, the score is 1:0 in favour of young stars.  

　　Finally, let me conclude with a statement that the results reported in the Nature article reveal only the tip of the iceberg. In the coming years, we anticipate breakthrough discoveries by LHAASO that could dramatically change the current concepts about the most energetic and extreme phenomena in the non-thermal Universe.