cv
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Basics
Name | Adrià Torralba-Agell |
Label | PhD Candidate - Applied Cryptography on Blockchain and Layer 2 |
atorralbaag@uoc.edu | |
Summary | A German-born theoretical physicist, widely ranked among the greatest and most influential scientists of all time |
Work
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1933.01 - 1955.01 Professor of Theoretical Physics
Institute for Advanced Study, Princeton University
Teaching at Palmer Physical Laboratory (now 302 Frist Campus Center). While not a professor at Princeton, I associated with the physics professors and continued to give lectures on campus.
- Relativity
Education
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1905.01 - 1905.01 Zurich, Switzerland
Awards
- 1921.11.01
Nobel Prize in Physics
Royal Swedish Academy of Sciences
The Nobel Prizes are five separate prizes that, according to Alfred Nobel's will of 1895, are awarded to 'those who, during the preceding year, have conferred the greatest benefit to humankind.'
Certificates
Quantum Teleportation | ||
Stanford University | 2018-01-01 |
Quantum Communication | ||
Stanford University | 2018-01-01 |
Quantum Cryptography | ||
Stanford University | 2018-01-01 |
Quantum Information | ||
Stanford University | 2018-01-01 |
Quantum Computing | ||
Stanford University | 2018-01-01 |
Machine Learning | ||
Stanford University | 2018-01-01 |
Publications
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1916.03.20 Die Grundlage der allgemeinen Relativitätstheorie
Annalen der Physik
The publication of the theory of general relativity made him internationally famous. He was professor of physics at the universities of Zurich (1909–1911) and Prague (1911–1912), before he returned to ETH Zurich (1912–1914).
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1905.06.30 Zur Elektrody/namik bewegter Körper
Annalen der Physik
It concerned an interpretation of the Michelson–Morley experiment and the properties of light and time. Special relativity incorporates the principle that the speed of light is the same for all inertial observers regardless of the state of motion of the source.
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1905.03.18 Über einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt
Annalen der Physik
In the second paper, he applied the quantum theory to light to explain the photoelectric effect. In particular, he used the idea of light quanta (photons) to explain experimental results, but stressed the importance of the experimental results. The importance of his work on the photoelectric effect earned him the Nobel Prize in Physics in 1921.
Skills
Physics | |
Quantum Mechanics | |
Quantum Computing | |
Quantum Information | |
Quantum Cryptography | |
Quantum Communication | |
Quantum Teleportation |
Languages
German | |
Native speaker |
English | |
Fluent |
Interests
Physics | |
Quantum Mechanics | |
Quantum Computing | |
Quantum Information | |
Quantum Cryptography | |
Quantum Communication | |
Quantum Teleportation |
References
Professor John Doe | |
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Professor John Doe | |
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Projects
- 2018.01 - 2018.01
Quantum Computing
Quantum computing is the use of quantum-mechanical phenomena such as superposition and entanglement to perform computation. Computers that perform quantum computations are known as quantum computers.
- Quantum Teleportation
- Quantum Cryptography