Display MoreNew paper by Leif Holmlid, spotted by Georgio Vasallo: -
https://www.researchgate.net/p…ts_detect_0_K_L_and_0_K_S
Neutral kaons formed by laser-induction in ultra- dense hydrogen H(0): decay timing and high-energy scintillator experiments detect 0 K L and 0 K S
January 2020
DOI: 10.13140/RG.2.2.27125.73441
Project: Direct electricity generation from nuclear reactions in ultra-dense hydrogen H(0)
Leif Holmlid
Charged kaons and pions can be identified accurately by their specific decay time constants of 12.4 and 26 ns respectively to muons, as published previously. Such partly relativistic particles are formed by annihilation-like reactions in ultra-dense hydrogen H(0), both in D(0) and p(0). Long-lived neutral kaons 0 K L have been identified in numerous experiments from their decay time constant of 52 ns. They are observed after decay to muons at mA signal levels, i.e. with 10 10 particles per laser pulse. Here the signatures of short-lived neutral kaons 0 K S are searched for to complete the picture of kaon generation. The short-lived kaon 0 K S is closely related to the long-lived kaon 0 K L and truly independent formation of 0 K S probably does not exist. Decay timing experiments observe muons or charged pions by a current coil with a maximum decay time of 1-2 ns relative to the laser pulse as expected for decay of 0 K S. The signal observed corresponds to 5×10 8 0 K S per laser pulse. Particle energy measurements with plastic scintillators identify the process of decay of 0 K S , generating two muons. Particle energy measurements with Al converters identify the process of decay of 0 K S to high-energy gamma photons in the approximate range 20-150 MeV. Positive results are presented from both laser-induced and spontaneous experiments. This completes the identification of all types of kaons generated from H(0).
You linked it here earlier on: Norront Fusion Energy AS
Another fascinating paper from Professor Leif Holmlid (Norront Fusion + Gotheburg University) Alan Smith
Neutral kaons formed by laser-induction in ultra- dense hydrogen H(0): decay timing and high-energy scintillator experiments detect 0 K L and 0 K S
- January 2020