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The Mass Gap of the Space-time and its Shape

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Manage episode 431860200 series 3474385
Contenido proporcionado por HackerNoon. Todo el contenido del podcast, incluidos episodios, gráficos y descripciones de podcast, lo carga y proporciona directamente HackerNoon o su socio de plataforma de podcast. Si cree que alguien está utilizando su trabajo protegido por derechos de autor sin su permiso, puede seguir el proceso descrito aquí https://es.player.fm/legal.

This story was originally published on HackerNoon at: https://hackernoon.com/the-mass-gap-of-the-space-time-and-its-shape.
Explore Snyder's quantum space-time with focus on how its quanta has a positive mass, cell geometry and links to standard particle models.
Check more stories related to tech-stories at: https://hackernoon.com/c/tech-stories. You can also check exclusive content about #quantum-spacetime, #spacetime-mas-gap, #snyder's-algebra, #snyder's-quantum-space-time, #lorentz-invariant-space-time, #standard-model-particles, #quantum-gravity, #hackernoon-top-story, and more.
This story was written by: @phenomenology. Learn more about this writer by checking @phenomenology's about page, and for more stories, please visit hackernoon.com.
Check out our latest exploration into Snyder’s quantum space-time! We dive into how quanta of space-time have a positive mass, explore the intriguing 24-cell geometry, and discuss its potential links to the standard model of particles. Plus, we connect these findings to major concepts like mass generation and the flatness of the observable universe. TL;DR We’re investigating Snyder’s quantum space-time, focusing on its Lorentz invariance and the intriguing positive mass gap. The study highlights the 24-cell geometry, its symmetry group, and potential connections to the standard model of particles. This research touches on mass generation, Avogadro's number, and the observable universe's flatness.

  continue reading

301 episodios

Artwork
iconCompartir
 
Manage episode 431860200 series 3474385
Contenido proporcionado por HackerNoon. Todo el contenido del podcast, incluidos episodios, gráficos y descripciones de podcast, lo carga y proporciona directamente HackerNoon o su socio de plataforma de podcast. Si cree que alguien está utilizando su trabajo protegido por derechos de autor sin su permiso, puede seguir el proceso descrito aquí https://es.player.fm/legal.

This story was originally published on HackerNoon at: https://hackernoon.com/the-mass-gap-of-the-space-time-and-its-shape.
Explore Snyder's quantum space-time with focus on how its quanta has a positive mass, cell geometry and links to standard particle models.
Check more stories related to tech-stories at: https://hackernoon.com/c/tech-stories. You can also check exclusive content about #quantum-spacetime, #spacetime-mas-gap, #snyder's-algebra, #snyder's-quantum-space-time, #lorentz-invariant-space-time, #standard-model-particles, #quantum-gravity, #hackernoon-top-story, and more.
This story was written by: @phenomenology. Learn more about this writer by checking @phenomenology's about page, and for more stories, please visit hackernoon.com.
Check out our latest exploration into Snyder’s quantum space-time! We dive into how quanta of space-time have a positive mass, explore the intriguing 24-cell geometry, and discuss its potential links to the standard model of particles. Plus, we connect these findings to major concepts like mass generation and the flatness of the observable universe. TL;DR We’re investigating Snyder’s quantum space-time, focusing on its Lorentz invariance and the intriguing positive mass gap. The study highlights the 24-cell geometry, its symmetry group, and potential connections to the standard model of particles. This research touches on mass generation, Avogadro's number, and the observable universe's flatness.

  continue reading

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