Designing Beauty: New Book on the Game of Life Art
A new book on the Game of Life, and specifically on the Art of the Game of Life has been published by Springer.
Edited by A. Adamatzky and Genaro J. Martinez, the book is entitled
part of the Series on Emergence, Complexity and Computation with artistic representations from simple mathematical models at the edge of physics and biology. The book contains a contribution by C. Conti on the Enlightened Game of Life.
The picture below shows the content of the book
Last Updated (Thursday, 21 January 2016 17:18)
Press Release Time Travel IS NOT possible
Our paper on the Glauber oscillator and Time Travel had a relevant impact in the press ...
Other press release is found in the links below
Last Updated (Sunday, 06 December 2015 11:18)
Glauber oscillator and time travel
The standard quantum mechanics does not forbid time-travel. However, some alternative formulations (based on the so called "rigged Hilbert space") include irreversibility as a fundamental principle: a quantum particle that decays cannot travel back in time.
There are not direct evidences of the irreversibility of decay processes, but the new quantum mechanics predicts that the decay rates are quantized.
If one observes the quantization of the decay rates, one can claim to have provided experimental support to the irreversible formulation of quantum mechanics.
In simple terms, one can claim that time-travel is not possible at the quantum level (...and also at the classical level).
Silvia Gentilini, Maria Chiara Braidotti, Giulia Marcucci, Eugenio Del Re, and Claudio Conti simulated in the laboratory one of the simplest models of the irreversible quantum mechanics, that follows an original proposal of Glauber. A laser beam emulates a quantum particle in a reversed harmonic oscillator, as a result the first experimental evidence of the quantization of decay time is reported in a paper published in Scientific Reports.
Last Updated (Saturday, 07 November 2015 20:41)
How much can you twist a ultrashort pulse?
If you have a ultrashort pulse, and you want to add angular momentum, you have limitations.
Angular momentum of light is nowadays largely studied because you can add information to a optical beam by twisting it, or you can rotate objects by lasers with angular momentum. But if you want to transmit information, the best thing to do is using light pulses and adding to any pulse a certain amount of orbital angular momentum (OAM). For example, by using m levels of OAM, any single pulse can encode m symbols (2 symbols correspond to one bit). The shortest the pulse you use, the higher the number of symbols you can transmit in a second (the transmission rate). This approach can be used for new classical and quantum high-bit rate transmission systems in free space or in fiber.
But Ornigotti and others find out that the number of OAM bits you can store in a single pulse is actually limited by the duration of the pulse and by its carrier frequency.
The following picture shows the link between OAM units m and the number of optical cycles in the pulse, these two quantized observables are actually strictly related.
These findings have important outcomes in the modern multilevel transmission systems, but also reveal a novel form of spatio-temporal coupling. The latter may lead to new kinds of entanglement, which may trigger applications in Quantum Optics.
Last Updated (Sunday, 04 October 2015 12:18)
The John Templeton Foundation !
Great news !
The John Templeton Foundation is funding us!
Out project "Generalized Uncertainty Principle and the Photon" has been funded for searching the links between quantum gravity and photonics.
Last Updated (Sunday, 30 August 2015 10:02)