1
brief introduction of quantum cryptography for engineers
by Bing Qi, Li Qian, Hoi-Kwong Lo
by Bing Qi, Li Qian, Hoi-Kwong Lo
Publisher: arXiv 2010
Number of pages: 36
Format :PDF
Language :English
Size :635 KB
Quality :Excellent
Number of pages: 36
Format :PDF
Language :English
Size :635 KB
Quality :Excellent
Description:
We present the fundamental principles behind quantum key distribution and discuss a few well-known QKD protocols. Bearing in mind that the majority of our readers are from engineering and experimental optics, we focus more on the experimental implementation of various QKD protocols rather than security analysis. Another important topic that is covered here is the study of the security of practical QKD systems
We present the fundamental principles behind quantum key distribution and discuss a few well-known QKD protocols. Bearing in mind that the majority of our readers are from engineering and experimental optics, we focus more on the experimental implementation of various QKD protocols rather than security analysis. Another important topic that is covered here is the study of the security of practical QKD systems
Contents :
1. The principle of quantum cryptography
2. State of the art QKD technologies
3. Security of practical QKD systems
4. Future outlooks
2. State of the art QKD technologies
3. Security of practical QKD systems
4. Future outlooks
Links :
http://hotfile.com/dl/38903736/9d45f03/1002.1237v1.pdf.html
http://rapidshare.com/files/378068368/1002.1237v1.pdf.html
http://www.megaupload.com/?d=EMBJ6NF2
http://hotfile.com/dl/38903736/9d45f03/1002.1237v1.pdf.html
http://rapidshare.com/files/378068368/1002.1237v1.pdf.html
http://www.megaupload.com/?d=EMBJ6NF2
2
An Introduction to the Theory of Rotating Relativistic Stars
by Eric Gourgoulhon
by Eric Gourgoulhon
Publisher: arXiv 2010
Number of pages: 88
Format :PDF
Language :English
Size :1.05 MB
Quality :Excellent
Number of pages: 88
Format :PDF
Language :English
Size :1.05 MB
Quality :Excellent
Description :
These lecture notes are intended to introduce the theory of rotating stars in general relativity. The focus is put on the theoretical foundations, with a detailed discussion of the spacetime symmetries, the choice of coordinates and the derivation of the equations of structure from Einstein equation. The global properties of rotating stars (mass, angular momentum, redshifts, orbits, etc.) are also introduced
These lecture notes are intended to introduce the theory of rotating stars in general relativity. The focus is put on the theoretical foundations, with a detailed discussion of the spacetime symmetries, the choice of coordinates and the derivation of the equations of structure from Einstein equation. The global properties of rotating stars (mass, angular momentum, redshifts, orbits, etc.) are also introduced
Contents
1 General relativity in brief
2 Stationary and axisymmetric spacetimes
3 Einstein equations for rotating stars
4 Global properties of rotating stars
A Lie derivative
1 General relativity in brief
2 Stationary and axisymmetric spacetimes
3 Einstein equations for rotating stars
4 Global properties of rotating stars
A Lie derivative
Links :
http://hotfile.com/dl/38885938/9ade83e/1003.5015v1.pdf.html
http://rapidshare.com/files/378052707/1003.5015v1.pdf.html
http://hotfile.com/dl/38885938/9ade83e/1003.5015v1.pdf.html
http://rapidshare.com/files/378052707/1003.5015v1.pdf.html
3
Introduction to Collider Physics
by Maxim Perelstein
by Maxim Perelstein
Publisher : arXiv 2010
Number of pages : 47
Format : PDF
Language : English
Size :944 KB
Quality: Excellent
Description:
These lecture notes introduce students to some of the basic ideas and tools required for theoretical analysis of collider data. Several examples of Standard Model processes at electron-positron and hadron colliders are considered to illustrate these ideas. In addition, a general strategy for formulating searches for physics beyond the Standard Model is outlined
Number of pages : 47
Format : PDF
Language : English
Size :944 KB
Quality: Excellent
Description:
These lecture notes introduce students to some of the basic ideas and tools required for theoretical analysis of collider data. Several examples of Standard Model processes at electron-positron and hadron colliders are considered to illustrate these ideas. In addition, a general strategy for formulating searches for physics beyond the Standard Model is outlined
Links :
http://hotfile.com/dl/38891694/74b843e/1002.pdf.html
http://rapidshare.com/files/378057099/1002.pdf.html
http://www.megaupload.com/?d=8F6NTN3H
http://hotfile.com/dl/38891694/74b843e/1002.pdf.html
http://rapidshare.com/files/378057099/1002.pdf.html
http://www.megaupload.com/?d=8F6NTN3H
4
Introduction to Loop Quantum Gravity
by Simone Mercuri
by Simone Mercuri
Publisher : arXiv 2010
Number of pages : 91
Format : PDF
Language : English
Size : 694 KB
Quality: Excellent
Number of pages : 91
Format : PDF
Language : English
Size : 694 KB
Quality: Excellent
Description :
After a description of some general arguments and an introduction to the canonical theory of gravity, the author reviews the background independent approach to quantum gravity, giving only a brief survey of Loop Quantum Gravity
After a description of some general arguments and an introduction to the canonical theory of gravity, the author reviews the background independent approach to quantum gravity, giving only a brief survey of Loop Quantum Gravity
Links :
http://rapidshare.com/files/378059286/1001.1330v1.pdf.html
http://hotfile.com/dl/38894962/ec2a07a/1001.1330v1.pdf.html
http://rapidshare.com/files/378059286/1001.1330v1.pdf.html
http://hotfile.com/dl/38894962/ec2a07a/1001.1330v1.pdf.html
5
Introduction to the Theory of Black Holes
by Gerard 't Hooft
by Gerard 't Hooft
Publisher: Utrecht University 2009
Number of pages: 49
Format : PDF
Language : English
Size : 513 KB
Quality: Excellent
Number of pages: 49
Format : PDF
Language : English
Size : 513 KB
Quality: Excellent
Description:
Contents: The Metric of Space and Time; Curved coordinates; A short introduction to General Relativity; Gravity; The Schwarzschild Solution; The Chandrasekhar Limit; Gravitational Collapse; The Reissner-Nordstrom Solution; Horizons; The Kerr and Kerr-Newman Solution; Penrose diagrams; Trapped Surfaces; The four laws of black hole dynamics; Rindler space-time; Euclidean gravity; The Unruh effect; Hawking radiation; The implication of black holes for a quantum theory of gravity; The Aechelburg-Sexl metric
Contents: The Metric of Space and Time; Curved coordinates; A short introduction to General Relativity; Gravity; The Schwarzschild Solution; The Chandrasekhar Limit; Gravitational Collapse; The Reissner-Nordstrom Solution; Horizons; The Kerr and Kerr-Newman Solution; Penrose diagrams; Trapped Surfaces; The four laws of black hole dynamics; Rindler space-time; Euclidean gravity; The Unruh effect; Hawking radiation; The implication of black holes for a quantum theory of gravity; The Aechelburg-Sexl metric
Links :
http://rapidshare.com/files/378062995/BH_lecturenotes.pdf.html
http://hotfile.com/dl/38900062/3605d83/BH_lecturenotes.pdf.html
http://rapidshare.com/files/378062995/BH_lecturenotes.pdf.html
http://hotfile.com/dl/38900062/3605d83/BH_lecturenotes.pdf.html
Winter Rose
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