1. MCC report Valery Kubarovsky Jefferson Lab April 27 th, 2016

2. History of physics At the end of 19 th century it was generally accepted that all the important laws of physics had been discovered. However a major revolution shook the world of physics, which led to the quantum mechanics and theory of relativity, what we called modern physics. Today in the beginning of 21 st century the situation looks very similar that we had 100 years ago. The standard model pretends to describe almost all phenomena in particle physics. However it turns out that

3. Dark Matter and Dark Energy Dark energy is necessary to describe the observed acceleratioon of the University expansion. We don’t know what it is. Dark Matter is necessary to describe the motion of the galaxies. We don’t know what is it either. The baryonic matter is only 4% of the Universe. Dark matter interact with usual matter through gravitation but not through electromagnetic, strong or week interactions. That is why it is hard to detect! However there is an indications from the austrophysics observation of the positrons in the space that dark matter would interact with regular matter through heavy photons with mass <1 GeV.

4. Heavy Photons as Mediator of New Force Dark Matter Our World 

5. Heavy Photon Decay    e + e -

6. Heavy Photon Search (HPS) Frascati magnet Dipole Analyzing Magnet Target W, 0.125% RL 6-layer SVT Silicon Vertex Tracker 442 crystal PbWO 4 Electromagnetic Calorimeter A’  e + e -

8. HPS Reach

9. Evidence for a Protophobic Fifth Force Submitted on 25 Apr 2016 6.8 sigma anomaly in e + e - distribution of the nuclear 8 Be decays. The mass of boson is m X =17 MeV

10. HPS: 1.05 and 2.3 GeV runs

11. HPS 1.05 GeV run

12. Many thanks again to the acelarator staff for outstanding job It was real fun to work with you together.