Astrophysically sourced quantum coherent photonic signals
Copyright policy )Astrophysically sourced quantum coherent photonic signals
L'émission stimulée s'est révélée robuste dans les étoiles. Grâce à l'amélioration de Bose, cela produit des états quantiques de photons monochromatiques alignés un peu similaires à ceux d'un laser. La probabilité de créer de tels états est calculée. Nous montrons qu'à partir de la couronne solaire, de tels états quantiques se propageraient en dehors de la région solaire et à travers le système solaire sans décohérence. Pour un détecteur de test $ 1\text{\ ensuremath {-}} {\mathrm {m}} ^{2}$ à la distance de la Terre du Soleil, nous estimons les taux de ces états quantiques dans les quelques par seconde potentiellement détectables. Le même processus devrait conduire à ce que de tels états quantiques arrivent également des étoiles à des distances interstellaires.
Se ha demostrado que la emisión estimulada es robusta en las estrellas. A través de la mejora de Bose, esto produce estados cuánticos de fotones monocromáticos alineados algo similares a un láser. Se calcula la probabilidad de crear tales estados. Mostramos que a partir de la corona solar tales estados cuánticos se propagarían fuera de la región solar y a través del Sistema Solar sin decoherencia. Para un detector de prueba de $ 1\text{\ ensuremath {-}} {\mathrm {m}} ^{2}$ a la distancia de la Tierra del Sol, estimamos las tasas de tales estados cuánticos en los pocos por segundo que son potencialmente detectables. El mismo proceso debería llevar a que tales estados cuánticos también lleguen desde estrellas a distancias interestelares.
Stimulated emission is shown to be robust in stars. Through Bose enhancement this produces quantum states of aligned, monochromatic photons somewhat similar to a laser. The probability of creating such states is computed. We show that from the solar corona such quantum states would propagate outside of the solar region and through the Solar System without decoherence. For a $1\text{\ensuremath{-}}{\mathrm{m}}^{2}$ test detector at the distance of the Earth from the Sun, we estimate rates of such quantum states in the few per second thus potentially detectable. The same process should lead to such quantum states also arriving from stars at interstellar distances.
يظهر الانبعاث المحفز قويًا في النجوم. من خلال تعزيز بوز، ينتج هذا حالات كمية من الفوتونات المتحاذية أحادية اللون تشبه إلى حد ما الليزر. يتم حساب احتمال إنشاء مثل هذه الحالات. نظهر أنه من الهالة الشمسية ستنتشر مثل هذه الحالات الكمومية خارج المنطقة الشمسية وعبر النظام الشمسي دون فك الترابط. بالنسبة لكاشف اختبار بقيمة $ 1\text {\ ensuremath {-}}{\mathrm{m }}^{ 2 }$ على مسافة الأرض من الشمس، فإننا نقدر معدلات مثل هذه الحالات الكمية بعدد قليل في الثانية وبالتالي يمكن اكتشافها. يجب أن تؤدي نفس العملية إلى وصول مثل هذه الحالات الكمومية أيضًا من النجوم على مسافات بين النجوم.
- Vanderbilt University United States
- University of Edinburgh United Kingdom
- National Polytechnic School Ecuador
- University of Chinese Academy of Social Sciences China (People's Republic of)
- Department of Physics and Astronomy United States
Quantum decoherence, Monochromatic color, Foundations of Quantum Mechanics and Interpretations, FOS: Physical sciences, Astrophysics, Quantum mechanics, Quantum, Quantum Interpretations, High Energy Physics - Phenomenology (hep-ph), Artificial Intelligence, Solar and Stellar Astrophysics (astro-ph.SR), Optical Manipulation and Angular Momentum, Quantum Physics, Quantum optics, Physics, Optics, Photon, Stars, Quantum Information and Computation, Atomic and Molecular Physics, and Optics, Quantum state, High Energy Physics - Phenomenology, Photonics, Astrophysics - Solar and Stellar Astrophysics, Physics and Astronomy, Computer Science, Physical Sciences, Quantum Physics (quant-ph)
Quantum decoherence, Monochromatic color, Foundations of Quantum Mechanics and Interpretations, FOS: Physical sciences, Astrophysics, Quantum mechanics, Quantum, Quantum Interpretations, High Energy Physics - Phenomenology (hep-ph), Artificial Intelligence, Solar and Stellar Astrophysics (astro-ph.SR), Optical Manipulation and Angular Momentum, Quantum Physics, Quantum optics, Physics, Optics, Photon, Stars, Quantum Information and Computation, Atomic and Molecular Physics, and Optics, Quantum state, High Energy Physics - Phenomenology, Photonics, Astrophysics - Solar and Stellar Astrophysics, Physics and Astronomy, Computer Science, Physical Sciences, Quantum Physics (quant-ph)
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