Lettre Anonyme 🇨🇮

The Dyson series is a method used in quantum mechanics to describe how a quantum system evolves over time when influenced by a time-dependent interaction. In a simple situation where the system is not being perturbed, the evolution is governed by the time-independent Schrödinger equation. However, when an external influence—like a changing electromagnetic field or some interaction with another system—is present, the Hamiltonian becomes time-dependent. This makes solving the Schrödinger equation directly much more complex. To handle this, the Dyson series provides a way to approximate the system's time evolution by expanding the solution into a series, much like a Taylor expansion. It breaks down the evolution into stages: the system experiences the interaction once, then twice, then three times, and so on, with each term in the series representing a higher order of interaction. The terms are also time-ordered, meaning the sequence in which the interactions happen matters—this is essential in quantum mechanics, where the order of operations can change outcomes.

In the 1940s, Subrahmanyan Chandrasekhar was committed to his teaching role at the University of Chicago, despite being based at the Yerkes Observatory. Each week, he traveled 80 miles to teach a special course attended by only two students. The students were Tsung-Dao Lee and Chen-Ning Yang. They proved their mentor's faith was well-placed when they both won the Nobel Prize in Physics in 1957, years before Chandrasekhar received the same honor in 1983. Remarkably, this course went down in history as the only one where every attendee received a Nobel Prize, underscoring the extraordinary impact of Chandrasekhar's dedication and teaching. 📷 AIP Emilio Segrè Visual Archives, Physics Today Collection

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Maryam Mirzakhani would turn 48 today. In 2014, she became the first woman to be awarded the Fields Medal for her groundbreaking discoveries in the dynamics and geometry of Riemann surfaces. She made significant contributions to the field of mathematics, particularly in the area of hyperbolic geometry and the study of geometric structures on surfaces. Sadly, Maryam passed away in 2017 at the age of 40 due to complications from breast cancer. Her untimely death was a significant loss to the mathematical community. 📷 Mott Carter/Clay Mathematics Institute

Born today in 1788: Augustin-Jean Fresnel was a French physicist and engineer, best known for his foundational contributions to the wave theory of light. Born in 1788, Fresnel emerged as a central figure in optics during the early 19th century, a time when Newton’s corpuscular (particle) theory of light still held considerable sway. Fresnel's most significant scientific contribution was his experimental and theoretical demonstration that light behaves as a wave, thereby challenging and eventually displacing the dominant Newtonian model. One of Fresnel's key accomplishments was his explanation of the phenomenon of interference—where light waves superpose to produce regions of brightness and darkness. In collaboration with François Arago, he performed critical experiments that showed how two coherent light sources could create an interference pattern, offering compelling evidence for the wave nature of light. He also introduced the concept of transverse light waves and mathematically modeled how such waves could account for polarization, another phenomenon that defied explanation under the particle theory. Most famously, Fresnel developed the equations now known as the Fresnel equations, which describe how light is reflected and refracted at the boundary between two media. He also introduced the Fresnel integrals and constructed the Fresnel zone theory to analyze diffraction, making sense of light behavior when it encounters obstacles and apertures. His work on diffraction led to the successful prediction of the central bright spot (later called the Arago spot) in the shadow of a circular object—an outcome that had seemed impossible under particle theory and which decisively favored the wave interpretation. Outside of pure theory, Fresnel made practical contributions by inventing the Fresnel lens, a revolutionary optical design composed of concentric rings. This design allowed for large, lightweight lenses with excellent focusing power, greatly improving the effectiveness of lighthouses and marine navigation. The Fresnel lens remains in use today in various applications, including automobile headlights and projection systems.

These are top natural foods y'all should include to your daily meal. -Ginger -Tumeric -Onions -Cabbage -Tomatoes -Eggs -Unripe Plantain -Cucumber -Sweet potato -Pepper -Beans -Beets -Liver -Red meat -Nut and seeds -Fish -Garlic -Broccoli -Pomegranate -Watermelon -Banana -Cloves -Bitter leaves -Vegetables -Apple -Carrot -Avocado -Mushrooms - Orange - Curry - Thyme Enjoy these natural and delicious foods with your family over the weekend!! Repost for others!!

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