Found 8 talks width keyword quantum mechanics
Abstract
"God does not play dice.", this is the famous quoted by Einstein who believed that quantum mechanics is not complete and could not possibly explain everything about
nature. However, in 2022, John F. Clauser, Alain Aspect, and Anton Zeilinger were jointly awarded the Nobel Prize in Physics for their groundbreaking experimental proof of
Bell's inequality, effectively demonstrating entanglement as a defining characteristic of quantum mechanics. However, some assumptions have been considered to experimentally
verify the Bell’s Inequality which is known as loopholes. One of which is the 'freedom of choice' loophole, questions the absence of statistical correlations between measurement
settings and external factors influencing the outcomes. In this presentation, I will delve into some work of Prof. Zeilinger's research group, which culminated in their prestigious
Nobel Prize and were performed at La Palma and Tenerife Islands. Moreover, I will talk on their recently pioneering use of distant astronomical sources as 'cosmic setting
generators'. This innovative approach allowed us to reach back in time, extending our understanding to approximately 7.8 billion years ago the most recent period beyond
which any local-realist influences could manipulate the 'freedom-of-choice' loophole and impact the observed Bell violations. Furthermore, the exciting prospects of identifying
potential sources that could extend this temporal boundary even further will be explored.
Abstract
lighter than the canonical axion will be discussed. The implications for dark matter, neutron stars and gravitational waves searches will also be addressed.
Abstract
The ExoMol project (www.exomol.com) provides comprehensive spectroscopic data (line lists) for the study of atmospheres of exoplanets and other hot bodies. These line lists serve as input for models of radiative transport through hot atmospheres and are useful for a variety of terrestrial applications. The basic form of the database is extensive line lists; these are supplemented with partition functions, state lifetimes, cooling functions, Landé g-factors, temperature-dependent cross sections, opacities, k-coefficients and pressure broadening parameters. Currently containing 80 molecules and 190 isotopologues totaling over 700 billion transitions, the database covers infrared, visible and UV wavelengths. The field of the HR spectroscopy of exoplanets is growing extremely fast and urgently demands molecular data of high precision. Failure to detect molecules in atmospheres of exoplanets is often attributed to the lack of the underlying quality of
the line positions. These developments have led us to begin a systematic attempt to improve the accuracy of the line positions for the line lists contained in the database. Our new ExoMolHD project aims to provide comprehensive line lists to facilitate their use in characterization of exoplanets using high resolution Doppler shift spectroscopy. Progress on this objective will be presented.
Abstract
Abstract
We introduce the strong CP problem and the existence of the Axion as a possible solution.
We discuss the possibility that axions are the dark matter of the Universe and the possible ways to
detect it or disprove it using: direct laboratory experiments as well as astrophysical and cosmological
Abstract
Teleportation of physical objects, transferring from one place to another without passing through intermediate locations, is not possible. However, teleportation of quantum states (the full information of quantum objects) is possible. Quantum teleportation is the faithful transfer of quantum states between systems, relying on the prior establishment of entanglement and using only classical communication during the transmission. In this talk I will first give an introduction of quantum teleportation and then present our on?going free?space quantum teleportation experiment between the two Canary Islands La Palma and Tenerife, separated by 144 km. Our scheme combines a Bell?state measurement, capable to identify two of the four Bell?states, with an actively triggered unitary transformation depending on its outcome. The scheme achieves the optimal teleportation efficiency achievable with linear optical elements. Our work is essential for showing the feasibility of satellite?based experiments and is an important step towards quantum?communication applications on a global scale.
Abstract
En mi conferencia haré una introducción a la Física Cuántica y a continuación pasaré a discutir diferentes casos en los que los fenómenos cuánticos juegan un papel determinante en el trabajo de diferentes máquinas médicas. De hecho, los ejemplos que explicaré recorrerán la historia de la medicina moderna, la del siglo XX, desde el punto de vista de la terapia como de la inspección. Para todo ello tendré que echar mano, por ejemplo, del principio de incertidumbre de Heisenberg, del efecto túnel de la corriente eléctrica y del espín, de la resonancia atómica. Todo ello para explicar, entre otros casos, cómo se “ve” el corazón, cómo se detectan los pensamientos, porque el feto de la madre roba el oxígeno a la sangre de su madre para poder vivir.
Abstract
El azar es un concepto fascinante que atrae el interés de diversas comunidades, desde filósofos a físicos y matemáticos. Por otro lado, los números aleatorios se han convertido en un recurso de gran utilidad práctica, puesto que son utilizados en, por ejemplo, aplicaciones criptográficas o la simulación de sistemas físicos y biológicos. Hasta ahora, cualquier propuesta para la generación de números aleatorios adolece de los siguientes problemas: (i) certificación: ¿cómo se puede probar que los números generados son aleatorios?, (ii) privacidad: ¿cómo se puede garantizar que los números aleatorios son aleatorios, en el sentido de impredecibles, a cualquier otro observador externo y (iii) device-independent: ¿cómo afectan las imperfecciones en los dispositivos al proceso de generación de azar? En la charla se presentará un nuevo formalismo para la generación de azar que resuelve estos tres problemas: por medio de las correlaciones no-locales de los estados entrelazados, es posible generar números cuya aleatoriedad es certificable, privada e independiente de los dispositivos.
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