Modern Physics by exploring Nobel Prizes¶
(Image credit: Gemini.AI)
A journey in Modern Physics based on the works of Physics Nobel Prize recipients.
I. MOTION¶
I.1 Dictatorial and democratic conceptualizations of spaces ¶
I.2 Production and control of electronic motions¶
I.3 Detection of signals with the eye and the microscope¶
I.4 Geometrization of the description of motion¶
I.5 Electron dynamics in matter (2023 Physics Nobel Prize) - TBD¶
II. ENERGY¶
II.6 Energy quantization in the black body radiation.¶
II.7 Spectroscopic studies of atomic structures.¶
II.8 Brownian motion and specific heat.¶
II.9 Conservation and transformation of energy.¶
II.10 Experiments with entangled photons (2022 Physics Nobel Prize) - TBD¶
III. WAVES¶
III.11 Matter waves and electron diffraction.¶
III.12 Optical and gravitational waves.¶
III.13 Collective waves in condensed matter.¶
III.14 Quantum waves and entanglement.¶
III.15 Microscopic quantum tunneling (2025 Physics Nobel Prize).¶
IV. UNIVERSE¶
IV.16 Development of knowledge in high energy physics.¶
IV.17 Evolution of cosmology.¶
IV.18 Understanding of complex physical systems (2021 Physics Nobel Prize) - TBD¶
IV.19 Machine learning with artificial neural networks (2024 Physics Nobel Prize) - TBD¶
IV.20 Universes composed by humans and societies.¶
Created: 2023-03-12; Updated: 2025-12-10
Jorge Barojas-Weber, Carlos Lizárraga-Celaya
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