Superconductivity - PowerPoint PPT Presentation


Ginzburg Landau phenomenological Theory

The Ginzburg-Landau phenomenological theory explains superconductivity and superfluidity as distinct thermodynamic phases. It focuses on phase transitions characterized by singularities in specific heat at the transition temperature. Derived from BCS theory, it quantifies condensation energy, emphas

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Understanding the EDIPO2 Test Facility at Swiss Plasma Center

The Swiss Plasma Center at cole Polytechnique Fdrale de Lausanne (EPFL) houses the Superconductivity Group responsible for testing superconductor samples for projects like ITER, DTT, and DEMO. The facility comprises two test facilities, SULTAN & EDIPO, and engages in activities like developing condu

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Understanding Superconductivity: A Key to Zero Resistance

Superconductivity is a fascinating phenomenon observed in certain materials where electrical resistance disappears and magnetic fields are expelled. At critical temperatures, materials become superconductors, allowing electricity to flow with zero resistance. This occurs due to electron pairs called

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Laser-Controlled Competing Superconducting and Charge Orders in Transition Metal Dichalcogenides

Hamburg Theory of laser-controlled competing superconducting and charge orders explores the use of lasers to manipulate the ordering mechanisms in transition metal dichalcogenides, leading to ultrafast switching and the induction of new states of matter. This research delves into generic mechanisms

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Pure Shift NMR Workshop: Advancements and Insights

Explore the latest developments and insights in Pure Shift NMR spectroscopy through presentations on acquisition methods, implementations, and the quest for spectral purity. Discover the evolution of magnet development and the potential of high-temperature superconductivity in NMR technology. Delve

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Superconductivity and Electrical Transmission Losses: Exploring Potential Solutions

The lecture delves into the factors controlling electrical transmission losses, highlighting how using superconductors could lead to zero transmission loss. However, the challenge lies in the low critical temperature (Tc) of most materials. Despite the discovery of superconductivity in 1911, practic

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Cutting-Edge Applications of Carbon Nanotubes

Carbon nanotubes exhibit remarkable properties such as superconductivity near room temperature, exceptional thermal conductivity, and unique chemical reactivity. They can be synthesized using methods like sublimation of graphite and electric arc discharge. These nanotubes have the potential to revol

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Renormalization Group Analysis of Magnetic Catalysis in Quantum Field Theories

Explore the phenomenon of magnetic catalysis in strong magnetic fields through a renormalization group analysis, drawing parallels to superconductivity and dimensional reduction. Discuss the impact of IR dynamics on nonperturbative physics like superconductivity. Delve into Landau-level quantization

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Exploring Quark-Gluon Plasma and New State of Matter at High Energy Colliders

Delve into the realm of high-energy physics at nucleus-nucleus colliders, with a focus on the discovery of deconfined partonic matter and the investigation of parallel worlds. Explore the recent insights, emerging topics, and new phenomena observed in ultra-intense collisions. Uncover the properties

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Innovations and Transformations in Condensed Matter Physics

Accelerating mainstream developments in condensed matter physics involves inducing electronic states and phases through strong external influences like electric or optical impacts. Notable successes include superconductivity manipulation and laser-induced transformations, with significant contributi

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Exploring Superconductors: A Comprehensive Study

This content delves into the world of superconductors, focusing on the properties of NbTi, magnetic field superposition, Meissner effect, thermodynamics, and experimental procedures. It covers various aspects such as quantitative cooling, control of magnetic fields, and the interaction between super

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Exploring Topological Band Theory and Quantum Phases in Electronic Matter

Delve into the fascinating realm of topological band theory, examining the insulating state, band topology in different dimensions, symmetry-protected topological band insulators, and the interplay between symmetry and topology. Uncover the principles underlying matter symmetry, quantum phases, and

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Exploring the Role of Bi-Polarons in High Temperature Superconductivity Research

This research delves into the concept of bi-polarons and their potential involvement in high-temperature superconductivity mechanisms. Collaborators from various institutions are investigating the properties and interactions of bi-polarons, considering factors like effective mass and density. The st

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Understanding Weak Superconductivity and Functional Coordinates

Delve into the realm of weak superconductivity and the significance of functional coordinates in this informative presentation. Explore the intricacies of these concepts through a series of visually appealing slides that shed light on their characteristics and applications. Gain insights into the re

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