Monday, July 17, 2017

Email Letter Sent to the Higgs Boson Discoverer, the Distinguished Chinese Physicist Dr. Sau Lan Wu


Dear Professor Sau Lan Wu,

I would have never heard of your name unless I searched Google for “the most conscientious physicist in the world”. And I got your name, your information and also watched your video explaining how the discovery of Higgs particle has been made. I’m very honored to learn that you are the one behind the secret of the discovery of the Higgs boson that they never publicized your name in the mass media.
My name is Eue Jin Jeong a Korean born physicist. I studied theoretical high energy physics at the University of Michigan Ann Arbor from 1980 –1984 while Professor Martinus Veltman was there and earned Master’s degree in science and then moved to the University of Texas Austin where Professor Weinberg is teaching high energy physics. But I changed my mind there and decided to obtain PhD degree in the area of experimental physics of solid state.
I felt that I’ll be coming back to the subject of theoretical physics later but it was not the right time. The most interesting subject in physics that I was curious about while I was at the University of Michigan was on the cause of the mass of the elementary particles and the cause of the jets from the black hole accretion disks.

Contrary to your path, I was delving into the dynamical mass generation mechanism for the elementary particles. And I wrote several papers regarding the subject while I was in Michigan but I never published them. The idea gave a surprising insight into the quark confinement mystery that may be interesting to you as well.
In the mean time, after finishing my PhD degree, I went back to South Korea in 1990 and had to serve for the government research institute for the period of time they supported me while studying in the US since I was one of the two recipients of the National Scholarship Study Abroad Program in Physics provided by the Education Ministry.  
To make the story short, I discovered in 1996 after I came back to the States to study further on particle physics that the second term next to Newtonian gravity in the linearized theory of general relativity was in fact meaningful when the rotating hemisphere is used as a source and the special relativistic mass increase effect is incorporated.
It turns out that a rotating hemisphere is a dipole gravity magnet that will perpetually be accelerated in the matter filled universe. I could derive the Lense-Thirring force using this concept. Basically the Lense-Thirring force turned out to be the sum of the two oppositely superposed dipole gravitational moment very close from the center of the sphere(two oppositely superposed hemisphere). Essentially this was the main cause that the jets from the black hole accretion disc and the dark matters are formed.
I think you would be more interested in real theories that really explain some physical phenomena than something like a string theory. 
I was able to put together everything that I have discovered in a book that I recently published, “Physics of the New Millennium, Birth of the New Paradigm”.
I’m enclosing a pdf copy of the book in this email for your review. I made sure to put a chapter for the elementary particle physics theories that I wrote when I was at the University of Michigan in the book.
I’m sure this book won’t bore you at all. The final conclusion I learned from all this theoretical adventure was that if the neutrinos are magnetic monopole tachyons, it will solve many many problems in physics. To name a few, the physical origin of quantum mechanics, origin of gravity, light traveling vacuum mystery etc. And finally the ultimate secret of controlling gravity by the method of electromagnetic means.
I’m sure you will also be able to point out misconceptions in my book as well if you can find some. Overall, I’m looking for the expert in the field like yourself who can express his/her opinion without reservation. Most of the physicists in the US of western origin are too self conscious to express their true opinions about the content of the book when I showed it to them. You are a Chinese and I’m a Korean in the same field of expertise in elementary particle physics.
I would appreciate your comments and I hope we can have chances to communicate much more in the future. 

Best Regards,
Eue Jin Jeong

                                        Web Page of Dr. Sau Lan Wu

1 comment:

Anonymous said...

Sitting at the center of the Milky Way galaxy lies a supermassive black hole named Sagittarius A* (Sgr A*), possessing the mass of about 4 million suns. And the primary function of Sgr A* is to be an eternal suck hole for any and all matter that manages to unwittingly find its way into the black hole’s vicinity, new data illustrates. The supermassive black hole has inadvertently become a testing ground for Albert Einstein’s theory of general relativity.

Astronomers using the European Southern Observatory’s Very Large Telescope (VLT), among other instruments, just completed an analysis of a trove of new data regarding Sgr A*, which demonstrates gravitational effects predicted by Einstein. The new findings, published in The Astrophysical Journal, further validate the theory of relativity through the orbit of the stars circling around Sgr A*.

“The Galactic Center really is the best laboratory to study the motion of stars in a relativistic environment,” said Marzieh Parsa, an astronomer at the University of Cologne in Germany and lead author of the new paper, in a press release. “I was amazed how well we could apply the methods we developed with simulated stars to the high-precision data for the innermost high-velocity stars close to the supermassive black hole.”

The research team, hailing from Germany and the Czech Republic, used VLT observations from the last 20 years to compare star orbit predictions made through Newtonian gravity techniques, with predictions made through general relativity. What they found was that a star known as S2 exhibited movements consistently predicted by general relativity.


The star S2 will make a close pass around the black hole in 2018 when it will be used as a unique probe of the strong gravity and act as a test of Einstein's general theory of relativity.

Why is this so big? Well, it would be the first time a measurement of effects defined by general relativity were observed in stars orbiting a supermassive black hole.

The VLT’s incredible strength, of course, made these measurements possible. It’s unclear how else S2’s movements would have been so accurately watched.

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Overall, the study does not provide any groundbreaking news, but it’s further validation — about a year-and-a-half after gravitational waves were finally detected — that Einstein managed to articulate a major framework for how the universe works a century before physicists really had the tools to confirm he was right.

That doesn’t mean astrophysicists are finally finished. These new results may just be a soft introduction to much more invigorating data to be collected by GRAVITY, a new instrument helmed by the Max Planck Institute for Extraterrestrial Physics in Garching, Germany. That instrument may be able to track the passage of S2 along Sgr A* in 2018 and unveil an even more tantalizing trove of data relevant to general relativity’s and modern physics’ biggest questions.