2449
DPyC SMF
false
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Dr.
Cinvestav
ea481e58ca9c64e14d7982cb66bcd604
3312
xixmwpf_2025@googlegroups.com
XIX Mexican Workshop on Particles and Fields, 2025
<p>The Division of Particles and Fields of the Mexican Physical Society (DPyC-SMF) organizes every second year the Mexican Workshop on Particles and Fields (MWPF). This space is designed to gather specialists in different areas of high-energy physics to discuss the latest developments in the field. This year, the meeting will be held at the Division de Ciencias e Ingenierías de la Universidad de Guanajuato, in León, Guanajuato, México (20-24/10/2025).</p>
<p><br />
<strong>Confirmed speakers</strong></p>
<p>Antonio Ortiz (ALICE)<br />
Saúl Ramos (String phenomenology)<br />
Genaro Toledo (Hadron phenomenology)<br />
Cristina Oropeza (CMS)<br />
Lorenzo Diaz Cruz (BSM)<br />
Luis Villaseñor (Interactive Physics)<br />
Luis Alberto Hernández Rosas (NICA)<br />
Catalina Espinoza (BSM)<br />
Héctor Novales Sánchez (BSM)<br />
Karen Caballero (Pierre-Auger)<br />
Pedro Podesta (Belle-Il)<br />
Myriam Mondragón (BSM)<br />
Edgar Valencia-Rodríguez (DUNE)<br />
Maura Ramírez (Dark matter)</p>
<p><img alt="" src="https://www.facebook.com/photo/?fbid=1075105774673083&set=a.409569754560025&locale=es_LA" /></p>
False
DCI, León, México
2025-10-20T08:30:00
2025-10-24T18:45:00
2025-07-12T01:56:27
2025-10-28T21:06:39
Mexico/General
Dr.
Cinvestav
3cd3ab69a079e614c15e4c750e7d3d60
Dr.
DCI Universidad de Guanajuato
aa33cdca78038e4796e39b6e7f764a38
Prof.
Benemérita Universidad Autónoma de Puebla
65efd11437264d48aa1f7486255a57bc
Dr.
Universidad de Guanajuato
0bba80e6b6d806cda49089f089616ab2
Dr.
BUAP
5848375cb8b0db28e94350f19dcb744f
Dr.
CONACYT/DCI-UG
2a83ae257b3cf0ba67dba226ffa866bf
100
false
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3
Plenary Talk
Extradimensional quantum numbers and linear wave equations
Dr.
UAEH
3af1e3cdfa5541e7a26e0878ffd6835e
Auditorio Edificio B
2025-10-20T12:30:00
2025-10-20T13:00:00
00:30
The Duffin Kemmer Petiau relativistic wave equation exists in en obscure corner of the history of QFT. It was used in the XX century to describe the properties of spin zero and spin one mesons. At the heart of the DKP theory is the meson algebra
$$\beta_\rho \beta_\mu \beta_\nu + \beta_\nu \beta_\mu \beta_\rho = g_{\mu \nu} \beta_\rho + g_{\mu \rho} \beta_\nu,$$
which has nontrivial 5 and 10 dimensional representations. This algebra permits the construction of a Dirac-like first order wave equation
$$ (i \beta_\mu \partial^\mu - m) \phi = 0.$$
From the point of view of 3+1 Poincaré covariant quantum field theory, this is a puzzling construction, since the propagating degrees of freedom comprise a mixture from different irreps of the Lorentz algebra. In particular, the spin one field is built from both chiral and non-chiral representations.
Now, the 4+1 Poincaré algebra has rank 3 and therefore its irreducible representations are indexed by three Casimir operators instead of two. The new Casimir is lineal in the momenta:
$$\mathcal{C}_3=\frac{1}{2^3}\epsilon^{\alpha\beta\mu\nu\rho} M_{\alpha\beta} M_{\mu\nu} P_\rho.$$
In this talk we show that the eigenvalue equation for this third extradimensional Casimir produces several linear equations in unconventional representations, including the DKP spin zero and spin one constructions.
In this work we report the construction of a covariant basis for the Jordan-Lie algebra of operators acting on the 5 and 10 representations of the 4+1 Lorentz algebra, and the classification of kinematical operators and therefore of relativistic wave equations for these fields. As an application, we show how the 5 and 10 dimensional meson algebras arise as the restriction to 3+1 dimensions of these Jordan-Lie algebras.
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