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Tuomas Lappi (University of Jyvaskyla)20/10/2017, 11:00
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Dong Jo Kim (University of Jyvaskyla (FI))20/10/2017, 11:30
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Petja Paakkinen (University of Jyväskylä)20/10/2017, 12:00
We present results of our recent EPPS16 global analysis of NLO nuclear parton distribution functions (nPDFs). For the first time, dijet and heavy gauge boson production data from LHC proton–lead collisions have been included in a global fit. Especially, the CMS dijets play an important role in constraining the nuclear effects in gluon distributions. With the inclusion of also neutrino–nucleus...
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Henri Johannes Hanninen (Helsinki Institute of Physics (FI))20/10/2017, 12:10
We study quantitatively the importance of the recently derived NLO corrections to the DIS structure functions at small x in the dipole formalism. We show that these corrections can be significant and depend on the factorization scheme used to resum large logarithms of energy into renormalization group evolution with the BK equation. This feature is similar to what has recently been observed...
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Jasper Parkkila (University of Jyvaskyla (FI))20/10/2017, 12:20
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Venus Keus (University of Helsinki)20/10/2017, 13:30
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Henning Kirschenmann (Helsinki Institute of Physics (FI))20/10/2017, 14:00
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Tuomas Tenkanen20/10/2017, 14:30
Electroweak Phase Transition is frequently studied perturbatively by using finite T effective potential. In this talk, we remind how non-perturbative analysis can be performed and discuss our findings and their implications.
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Mikko Lotti (Helsinki Institute of Physics (FI))20/10/2017, 14:45
The Standard Model is one of the most successful theories of our time, but there still appear problems in the theory. One way to overcome these problems is an extended scalar sector. By adding an additional scalar doublet to the Standard Model we can predict in total five Higgs bosons instead of one and two of these are charged. At CERN LHC the charged Higgs bosons (H+) are searched for and...
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Dr Niko Jokela20/10/2017, 15:30
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Kai Krister Loo (University of Jyvaskyla (FI))20/10/2017, 16:00
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Timo Johnny Karkkainen (Helsinki Institute of Physics (FI))20/10/2017, 16:30
The triplet scalars, predicted by the left-right symmetric SU(2)xSU(2)xU(1) model and utilized in Type II seesaw model to explain the lightness of neutrinos, would generate nonstandard interactions (NSI) for neutrino propagating in matter. The bounds for NSI would then translate into constraints on the triplet Higgs model. I introduce the model and present current bounds and bounds improved by...
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Sampsa Vihonen20/10/2017, 16:45
Following the celebrated discovery of neutrino oscillations, it became clear that the Standard Model had acquired yet another problem it could not explain: the origin of neutrino mass. Over the last few decades neutrino physics has seen an amazing progress, and very recently the field entered a new era, where properties of the standard three-neutrino paradigm can be tested to a high precision....
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