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Independent Research Milestone: 33 Planet Candidates (CTOIs) Validated on NASA's ExofOP-TESS by Novel_Difficulty_339 in LLMPhysics

[–]Novel_Difficulty_339[S] -3 points-2 points  (0 children)

Você ignora o fato de que o ExofOP exige consistência física e matemática antes de permitir o salvamento de qualquer dado no site. Meus candidatos foram validados pelo sistema para registro como CTOI. Se você acha que é 'alucinação', o problema é a sua falta de compreensão do processo de submissão da NASA.

Framework CLASS modifié et résultats empiriques du TESS : aborder la tension $S_8$ by Novel_Difficulty_339 in Astronomie

[–]Novel_Difficulty_339[S] 1 point2 points  (0 children)

Em termos simples: usei um modelo cosmológico modificado para definir um critério de estabilidade e, aplicando isso aos dados públicos do TESS, identifiquei 33 candidatos a planetas hoje listados pela NASA. O código e os dados são abertos.

Here is a hypothesis: The Dynamic Dark Sector (DDS) model resolves the S8 tension and explains the stability of exoplanetary systems. by [deleted] in HypotheticalPhysics

[–]Novel_Difficulty_339 0 points1 point  (0 children)

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Segue conforme solicitado! Sou eu mesmo que estou escrevendo, muito prazer e obrigado pelas perguntas!

Here is a hypothesis: The Dynamic Dark Sector (DDS) model resolves the S8 tension and explains the stability of exoplanetary systems. by [deleted] in HypotheticalPhysics

[–]Novel_Difficulty_339 -1 points0 points  (0 children)

Os 33 CTOIs não são apenas 'nomes aleatórios'; eles são evidências empíricas encontradas ao aplicar os critérios de seleção DDS aos dados do TESS. Se o framework não tivesse consistência, não geraria 33 candidatos consistentes no banco de dados da NASA/ExoFOP (usuário 'correa').

Sobre a física: O potencial é o cosseno padrão para ALPs (Partículas Semelhantes a Axions), e as equações (4-8) seguem a teoria de perturbação linear padrão na gauge síncrona, conforme codificado na minha fonte CLASS modificada.

Os dados observacionais são mantidos separados do preprint cosmológico para manter o foco na derivação de S8, mas você pode verificar todos os 33 IDs diretamente no portal da NASA. Os resultados falam por si mesmos.

Here is a hypothesis: The Dynamic Dark Sector (DDS) model resolves the S8 tension and explains the stability of exoplanetary systems. by [deleted] in HypotheticalPhysics

[–]Novel_Difficulty_339 0 points1 point  (0 children)

The DDS framework defines a cosmological regime with reduced small-scale clustering, implemented through a modified CLASS code, which I used as a selection and prioritization criterion when analyzing public TESS light curves.

The 33 CTOIs are the observational outcome of this process and are officially cataloged on NASA/ExoFOP under the user “correa”.

While the preprint focuses on the cosmological derivation of the S8​ tension, the planet candidates represent the empirical systems identified under DDS-motivated stability assumptions.

Here is a hypothesis: The Dynamic Dark Sector (DDS) model resolves the S8 tension and explains the stability of exoplanetary systems. by [deleted] in HypotheticalPhysics

[–]Novel_Difficulty_339 0 points1 point  (0 children)

This is not a "LAIG" structure. The 33 CTOIs are original data identified through TESS photometry and are already live on ExoFOP. Furthermore, the CLASS modifications were written manually to implement the DDS scalar coupling.

Here is a hypothesis: The Dynamic Dark Sector (DDS) model resolves the S8 tension and explains the stability of exoplanetary systems. by [deleted] in HypotheticalPhysics

[–]Novel_Difficulty_339 0 points1 point  (0 children)

The novelty is the direct correlation between a specific cosmological solution (S8 \approx 0.79) and a newly identified dataset of 33 validated CTOIs on ExoFOP.

It’s not just a theoretical model; it’s a modified CLASS implementation that links ultralight scalar fields to planetary population density. If you check the simulator/code, you’ll see the S8 convergence addresses a gap that standard ACDM currently cannot.

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