XXVI DAE-BRNS High Energy Physics Symposium 2024

Capability of the proposed long-baseline experiments to probe large extra dimension

Not scheduled

20m

Swatantrata Bhavan, Banaras Hindu University, Varanasi

Oral Neutrino Physics

Speaker

Mr Samiran Roy (INFN Naples)

Description

Future long-baseline experiments will play an important role in exploring physics beyond the standard model. One such new physics concept is the large extra dimension (LED), which provides an elegant solution to the hierarchy problem. This model also explains the small neutrino mass in a natural way. The presence of LED modifies the standard neutrino oscillation probabilities. Hence, the long-baseline experiments are sensitive to the LED parameters. We explore the potential of the three future long-baseline neutrino experiments, namely T2HK, ESSnuSB, and DUNE, to probe the LED parameter space. We also compare the capability of the charged and neutral current measurements at DUNE to constrain the LED model. We find that T2HK will provide more stringent bounds on the largest compactification radius ($R_{\mathrm{E}\mathrm{D}}$) compared to the DUNE and ESSnuSB experiments. At $90\mathrm{\%}$ C.L., T2HK can exclude $R_{\mathrm{E}\mathrm{D}}\sim 0.45(0.425)$ $\mu$m for the normal (inverted) mass hierarchy scenario.

Presentation materials

DAE_SR.pdf