Prof. VENKATESWARARAO Alapati
Ph.D., Princeton University
F.R.S., F.R.Eng., J.C. Maxwell.,
Cavendish Professor of Physics
PPPL ASTROPHYSICAL SCIENCES Princeton USA
ENGINEERING DESIGN CENTRE
University of Cambridge UK
ITER France
St. Paul lez Durance Cadarache France
Department of Applied Mathematics & Theoretical Physics University of Cambridge UK
venkateswararAo alapati
Nobel Prize for Physics Background Physicist Professor of
Albert Einstein
ASTROPHYSICAL
SCIENCES
CEA/IRFM Cadarache France - ITER
Princeton Plasma Physics Laboratory, Princeton.
Elementary Particle Physics
University of California, Berkeley, CA, U.S.A.
e - mail : av.pppl.princeton@gmail.com Phone : +1 609-243-2613
Nobel Laureate Enrico Fermi Distinguished Professor of Physics, University of Chicago.
Theoretical Scientist & An Experimental Research Professor, Assistant Professor of Physics.
Academic advisor (Professor Emeritus)
Smoot, George F.
Nobel Laureate for Physics (2006)
Ph.D Physics - MIT (1971)
Research Advisor (Professor Emeritus)
Kulsrud, Russell M.
Maxwell Prize Recipient (1993)
Ph.D Astronomy - University of
Chicago (1954)
Professional info
I am working in the Department of Particle Physics and Particle Astrophysics for my Ph.D thesis, my interests are Elementary Particle Physics to find a new particle resonance, which may commonly occur from Particle Astrophysics Group (cf.). and my self-motivation towards work on new topics like, Particles move faster than Light ; Atomic Clocks; Big Bang Theory ; State of Expansion of our Universe ; The Accelerating State of our Universe ; Mass distribution of our Universe , Curvature and Mean mass density of our Universe ; Search for Origin and good endpoints to our Universe , Setting limits for initial conditions to understand our Universe ; Early Universe ; Adjustment Mechanics ; Formation of Stars and Galaxies; Very Early Universe ; Necessity of Multiverse Theory ; Nuclear and Particle Synthesis in Stars and Galaxies to finding a new particle average and observations; Hypothesis of new Particle Theory which can exchange information between any two different Universes. (Ref.).
Einstein's thought of matter can exist only in particle belief similar to Newton, also I'm supporting . Understanding is a key step to get an idea being it to prove the spectral explanation to reviewing the matter at an elementary level research to finding new approachment (cf.). The concept of matter and antimatter , importance is very interesting at the fundamental level to understand our universe , Paul A. M. Dirac , the existence of antimatter theory through that his equations and laws of conservation principals for an existence of an electron and positive electron , i.e. positron The first Antiparticle,(Ref.) of matter.
We know the dynamic and kinematic laws ; for recent observational evidence , Accelerating State of present state and final fate of our Universe , SNAP observations made by Saul Perlmutter et al., actually Einstein view was static but physically it is expanding for ever, as a function of mass density of matter and radiation at a big crunch; Murray Gell-Mann, the explanation for the existence of Quarks(cf.). George F. Smoot III, University of California, Berkeley maps our universe at different epoch with the spectral evidence , Cosmic Microwave Background Radiation Anisotropy ; to under stand present epoch of our Universe.
I wish to choose a good look at all these emergence at a point of aesthetic essence of a solution to prove independently our Universe at an elegance of edge at matter and antimatter to resolve and establish new theories to understand our universe. Elementary Particle Physics and Particle Astrophysics , is a one stream of look and work on, for finishing my Ph.D. thesis.
Finally thanks to my parents for their support in my Studies.
On behalf of,
Astrophysical Sciences
Princeton Plasma Physics Laboratory, Princeton, Princeton University NJ USA 08543 - 0451
Culham Centre for Fusion Energy
UK Atomic Energy Authority,
Culham Campus,
Abingdon,
Oxfordshire,
OX14 3DB,
UK
Venkateswararao Alapati
Nobel Prize for Physics Background Physicist, Theoretical Scientist & An Experimental Research Professor
Assistant Professor of Physics
Fellow of Nobel Laureate for Physics, Albert Einstein Professor of Science and Astrophysical Sciences
Princeton University Princeton NJ USA
Vikram Sarabhai Research Professor, Cavendish Laboratory
University of Cambridge, United Kingdom, England.
The Royal Society of London,
Science & Engineering,
Cambridge, England (U.K).
.
PPPL Princeton, Theory
CCFE, Oxford.
Russell Kulsrud, Emeritus.
Main Advisor Since (2008).
Steven Cowley, Director. PPPL, Princeton; CCFE, Oxford, UK.
Co- Advisor Since (2008).
Alexander A. Schekochihin,
Professor, PPPL, Princeton;
CCFE, Oxford, UK.
Co- Advisor Since (2008).
-------------------------------
Course Closely - Professor Kip Thorne, Nobel Prize for Physics (2017)
&
Refregier, Alexandre, Prof. Dr. | ETH Zurich - Lectures
Swiss Plasma Center
EURO Fusion
EPFL
Paolo Ricci | ETH Zurich
Ambrogio Fasoli | ETH Zurich
ITER Tokamak
SOUTHERN FRANCE
Course 1 of 1: Jean-Loup Strudel, Ph.D University of California, Berkeley, CA, U.S.A.
Course 1 of 2: Marc C. Fivel, Grenoble - Institute of Nuclear Physics, ILP France.
Course 2 of 1: Hans W. Liepmann, Graduate Aerospace Laboratories of California Institute of Technology, Pasadena USA.
Course 2 of 2: Roddam Narasimha, GALCIT, Caltech, Pasadena, U.S.A.
Course 3 of 1: Anil K. Bhatnagar, Ph.D University of Maryland, College Park, U.S.A.
Course 3 of 2: George F. Smoot, UC Berkeley California, U.S.A.
Course 4 of 1: Russell M. Kulsrud, Ph.D University of Chicago, Chicago IL, U.S.A.
Project: Matterhorn (Stellarator), PPPL Princeton.
Course 4 of 2: Saul Perlmutter, UC Berkeley, California, U.S.A.
Project: Supernova Cosmology, Berkeley Centre for Cosmological Physics.
Elementary Particles
Astrophysical jets
Wall Bound flow: Beverley J. McKeon, Stanford University & Fluid mechanics in the spirit of G.K. Batchelor Scientific Committee
Stellarator - PPPL PRINCETON
joint European torus - CCFE (JET - UkaeA)
TFTR - Princeton
References:
1). Vitaly Lazarevich Ginzburg
The Nobel Prize in Physics 2003 P.N. Lebedev Physical Institute, Moscow, Russia.
V L Ginzburg 1979 Sov. Phys. Usp. 22 514 TO THE CENTENARY OF A. EINSTEIN, P N Lebedev Physical Institute of the Russian Academy of Sciences 53, Leninskiy Prospekt, Moscow
2). Stirling A. Colgate, 1966 his research with Johnson and White finally emerged in a paper carefully edited by S. Chandrasekhar
3). Sir Edward Victor Appleton
The Nobel Prize in Physics 1947 Department of Scientific and Industrial Research, London, United Kingdom
4). Satish Dhawan, GALCIT, Caltech, Pasadena, U.S.A
4). Hans Liepmann, GALCIT, Caltech, Pasadena, U.S.A
5). Vikram Sarabhai, Cavendish Laboratory, University of Cambridge, England, United Kingdom
6-a). Antony Hewish, The Nobel Prize in Physics 1974 University of Cambridge, Cambridge, United Kingdom
6-b). Sir Martin Ryle, The Nobel Prize in Physics 1974 University of Cambridge, Cambridge, United Kingdom
7-a). Joseph H. Taylor Jr.
The Nobel Prize in Physics 1993 Princeton University, Princeton, NJ, USA
7-b). Russell A. Hulse
The Nobel Prize in Physics 1993 Princeton University, Princeton, NJ, USA
8-a). Subrahmanyan Chandrasekhar The Nobel Prize in Physics 1983 University of Chicago, Chicago, IL, USA
8-b). William Alfred Fowler
The Nobel Prize in Physics 1983 California Institute of Technology (Caltech), Pasadena, CA, USA
Ph.D Courses: Class Room Practice for Use
1. ENGINEERING DESIGN - 1
Ref: Fusion reactor systems* , F. L. Ribe., Rev. Mod. Phys. , Vol. 47, No. 1, January (1975). University of California, Los Almos Scientific Laboratory, Los Alamos, New Mexico 87544
2. ENGINEERING DESIGN - 2
Ref: Interplay of classical and quantal descriptions of heavy-ion interactions, Norman K. Glendenning., Rev. Mod. Phys. , Vol. 47, No. 3, July (1975). Lawrence Berkeley Laboratory, University of California, Berkeley, California 94720
3. DESIGN CONCEPTS AND MANUFACTURING TECHNIQUES
Ref: Plasma Physics and Controlled Nuclear Fusion Research vol. - 1, Vol. - 2, Vol. - 3 and Vol. - 4., IAEA Conf. Paper Rev. (1984)
4. FORMING METALS AND MANUFACTURING
Ref: Text books lookup by M. F. Ashby, Engineering Design Centre., Engineering - Cambridge University.
5. EXPERIMENTAL FLUID MECHANICS - 1
Ref: Ascher Shapiro, National Committee for Fluid Mechanics Films - NCFMF (1961)
6. EXPERIMENTAL FLUID MECHANICS - 2
Ref: Ascher Shapiro, National Committee for Fluid Mechanics Films - NCFMF (1961)
7. FLUID DYNAMICS - 1
Ref: Report to the Amaerican Physical Society by the study group on physics problems relating to energy technologies: Radiation effects on materials" - APS Study Group., Reviews of Modern Physics, Vol. 47, Suppl. No. 3, Winter (1975)
8. FLUID DYNAMICS - 2
Ref: Report to the American Physical Society by the study group on light-water reactor safety* Rev. Mod. Phys. , Vol. 47, Suppl. No. 1; Summer (1975)
9. CONTINUUM MECHANICS - 1 (/ ENGINEERING MECHANICS - 1)
10. CONTINUUM MECHANICS - 2 (/ ENGINEERING MECHANICS - 2)
11. PHYSICS OF CONTINUOUS MATTER - Exotic and Everyday Phenomena in the Macroscopic World
B.Sc. Astrophysical Sciences Courses:
Class Room Practice for Use
1. Mechanics
2. Waves
3. Oscillations
4. Kinetics Theory of Gases
5. Fluid Mechanics Laboratory
6. Differential Equations
7. Real Analysis
8. Matrcs Algebra
9. Group Theory
10. Vector Algebra
11. Optics
12. Crystallography
13. Metallurgy (Uranium Thorium and Plutonium)
14. Organic Chemistry
15. Nuclear Fission and Fusion
16. Classical Theory of Fields
17. Electrodynamics
18. Ring Theory
19. Innerproduct Spaces
20. Numerical Theory
21. Elementary Particles
22. Fusion Plasmas - Laboratory made
23. Astrophysical Plasmas
24. Vacuum Divertor and Plasma Facing Components
25. Turbulence
26. Radar: Introduction to Radar Systems — Online Course
27. Adaptive Antennas and Phased Arrays — Online Course
28. Asymptotic Freedom — Online Course
29. Limit Cycles — Online Course
30. Bifurcations — Online Course
31. Hydrogen Atom
32. Fourier Analysis
33. Bessels Functions
44. Hermite Polynomials
45. Legendre Polynomials
46. Legendre Transformations
47. Laplace Transformations
48. Fourier Transformations
49. Vander Pol Oscillator
50. Simple Harmonic oscillator — Hydrogen Atom
51. Laguerre Polynomials
52. Complex Numbers
53. Isotope separation — Hydrogen Atom
54. Hydrogen Storage
55. Physical Kinetics
56. LASERs — Lawrence Livermore NL
57. Hydrogen Plasma L — mode operation
58. Hydrogen Plasma H — mode
59. Hydrogen Plasma in both L and H — mode
60. Volterra bifurcations
61. Spheromak — CTX Los Alamos NL
62. Joint European Torus Experiment — JET UKAEA
63. Tokamak — CCFE and Swiss Plasma Centre
64. Stellarator — Princeton Plasma Physics Laboratory
65. ITER — Southern France
Education
Master of Science in Physics, Andhra University, Visakhapatnam, 2006-2008.
Bachelor of Science (2001-2004), and Bachelor of Education(200-2006) in Mathematics & Physical Sciences,
Andhra University, Visakhapatnam.
B.Sc., Physics subjects: Mechanics, Waves and Oscillations, Optics, Thermodynamics, Electricity and Magnetism,Electronics and Modern Physics.
B.Sc., Mathematics Subjects: Differential Equations, Real analysis, Vector Algebra, Group Theory, Ring Theory, Numerical Methods.
* Mining Research - Extraction of Oxide forms of Uranium, Thorium and Other radio active metals from its ore at B.Sc Level theory.
A span of four years at UoH as a Ph.D Engineering Research Graduate Student from 2009 - 2013 in Fusion Plasmas.
*Plasma Heating and magnetic charge stability
*Cyclotron Theory
*Hot and cold Plasma Theory
* Plasma Facing metals theory
* STELLARATOR Theory (vacuum detection and fusion plasma flux diversion)
* Waves in fusion plasmas
*Oscillators and Particle Resonance Techniques Theory
.
Phenomena
Physics Practical Exam 2001, Marks Obtained 30 out of 30 to perform Tan A position of a Deflection Magnetometer.
Physics Practical Exam 2002, Marks Obtained 45 out of 50 to perform a Simple Pendulum Experiment for an Acceleration due to Gravity 'g-value'.
Physics Practical Exam 2003, Marks Obtained 47 out of 50 to Perform Newton Rings Experiment for measuring radius of the given 'hair piece' of cupper made.
Physics Practical Exam 2004, Marks Obtained 99 out of 100 to perform two experiments.
a) Value of Earth's Magnetism using Vibrating Magnetometer, 49.5 marks out of 50; b) Compound Pendulum, 49.5 marks out of 50.
Practical Exam 2006, Marks Obtained 592 out of 700 to Bachelor of Education Training performance in Physical Science and Mathematics.
a) Calorimeter, measurement of the quantity of heat exchanged for class room purpose; b) Electro Magnetic Induction, Creating magnetic fields using Direct Current for class room examination.
Modern Physics Lab - 1 (Practical) 2007, Marks Obtained 82 out of 100.
Professor, Dr. M. L. P. Rao, Ph.D Physics, University of California, Berkeley, U.S.A.
Modern Physics Lab - 2 (Practical) 2007, Marks Obtained 85 out of 100
Professor, Dr. M. L. P. Rao, Faculty Member at Andhra University, Visakhapatnam.
At the time of submitting my exam report, Professor M.L.P. Rao awarded me 95 marks over 100; and he said to me that I was expected to submit this before 10 minutes to give you full credit for this exam, 100 over 100. Any way after results 85 marks attained on sheet. .
Viva Voice 2007 Second Semester Marks Obtained 33 out of 50, Examiner : Professor, Dr. M. L. P. Rao, Ph.D Physics, University of California, Berkeley, U.S.A.
Viva Voice 2007 Third Semester Marks Obtained 44 out of 50, Examiner : Professor, Dr. M. L. P. Rao, Faculty Member at Andhra University, Visakhapatnam, India.