Event calendar file
22-26 May 2023
Biological and Chemical Research Centre
Europe/Warsaw timezone
- planck2023@candela.org.pl
Support
Parallel 20
Place
Location: Biological and Chemical Research Centre
Address: Żwirki i Wigury 101,
02-089 Warszawa
POLAND
Date:
25 May 14:30 - 16:10
Conveners
-
- Fernandez Martinez, Enrique (UAM-IFT)
Timetable | Contribution List
Displaying 5
contributions
out of
5
Session:
Parallel 20
After a brief introduction to neutrino electromagnetic properties, I will focus on the correlation between neutrino magnetic moment and neutrino mass mechanism. Then I will discuss that the models that induce large neutrino magnetic moments while maintaining their small masses naturally also predict observable shifts in the charged lepton anomalous magnetic moment by showing that the measurement o
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Presented by Sudip JANA
on
25/05/2023
at
13:10
Session:
Parallel 20
Measuring the solar neutrino flux over gigayear timescales could provide a new window to inform the solar standard model as well as studies of the Earth’s long-term climate. We demonstrate the feasibility of measuring the time evolution of the B8 solar neutrino flux over gigayear timescales using paleo detectors, naturally occurring minerals which record neutrino-induced recoil tracks over geolo
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Presented by Natalia TAPIA ARELLANO
on
25/05/2023
at
12:50
Session:
Parallel 20
The smallness of neutrino masses is one of the most intriguing puzzles in the context of particle physics. One of the most natural ways to introduce naturally suppressed masses is the construction of dimension-5 effective operators, called Weinberg operators. In the presence of only the standard Higgs scalar doublet, these kinds of operators arise in the three usual seesaw models. In this manuscri
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Presented by Mr. Simone MARCIANO
on
25/05/2023
at
15:50
Session:
Parallel 20
The so called 331-model is a SM extension based on SU(3)_c\times SU(3)_L\times U(1)_X-gauge group. One of the interesting features of this model is its ability to explain the number of fermion generations in nature. This feature is due to different anomaly cancellation mechanism compared to SM: one of the quark generations have to be in a different representation than the other two, in order the g
... More
Presented by Niko KOIVUNEN
on
25/05/2023
at
13:30
Session:
Parallel 20
The search for the neutrinoless double beta (0νββ) decay is considered the most promising way to prove the Majorana nature of neutrinos and to give an indication of the mass hierarchy and of the absolute mass scale of neutrinos. Moreover, being the 0νββ decay a lepton number violating process, its potential discovery would offer an explanation for the observed matter-antimatter asymmetry in
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Presented by Mrs. Sofia CALGARO
on
25/05/2023
at
14:30
