Searching for IceCube sub-TeV neutrino counterparts to sub-threshold Gravitational Wave events
 Mukherjee, T Abbasi, R Ackermann, M Adams, J Agarwalla, S Aguilar, J Ahlers, M Alameddine, J Amin, N Andeen, K Anton, G Argüelles, C Ashida, Y Athanasiadou, S Axani, S Bai, X Balagopal V, A Baricevic, M Barwick, S Basu, V Bay, R Beatty, J Becker Tjus, J Beise, J Bellenghi, C Benning, C BenZvi, S Berley, D Bernardini, E Besson, D Blaufuss, E Blot, S Bontempo, F Book, J Boscolo Meneguolo, C BOSER, S Botner, O Bottcher, J Bourbeau, E Braun, J Brinson, B Brostean-Kaiser, J Burley, R Busse, R Butterfield, D Campana, M Carloni, K Carnie-Bronca, E Chattopadhyay, S Chau, T Chen, C Chen, Z Chirkin, D Choi, S Clark, B Classen, L Coleman, A Collin, G Connolly, A Conrad, J Coppin, P Correa, P Cowen, D Dave, P DE CLERCQ, C DeLaunay, J Delgado Lopez, D Deng, S Deoskar, K Desai, A Desiati, P de Vries, K de Wasseige, G DeYoung, T Diaz, A Diaz-Velez, J Dittmer, M Domi, A Dujmovic, H DuVernois, M Ehrhardt, T Eller, P Ellinger, E El Mentawi, S Elsässer, D Engel, R Erpenbeck, H Evans, J Evenson, P Fan, K Fang, K Farrag, K Fazely, A Fedynitch, A Feigl, N Fiedlschuster, S Finley, C Fischer, L Fox, D Franckowiak, A Fritz, A Furst, P Gallagher, J Ganster, E Garcia, A Gerhardt, L Ghadimi, A Glaser, C Glauch, T Glusenkamp, T Goehlke, N Gonzalez, J Goswami, S Grant, D Gray, S Gries, O Griffin, S Griswold, S Groth, K Günther, C Gutjahr, P Haack, C Hallgren, A Halliday, R Halve, L Halzen, F Hamdaoui, H Ha Minh, M Hanson, K Hardin, J Harnisch, A Hatch, P Haungs, A Helbing, K Hellrung, J Henningsen, F Heuermann, L Heyer, N Hickford, S Hidvegi, A Hill, C Hill, G Hoffman, K Hori, S Hoshina, K Hou, W Huber, T Hultqvist, K Hunnefeld, M Hussain, R Hymon, K In, S Ishihara, A Jacquart, M Janik, O Jansson, M Japaridze, G Jeong, M Jin, M Jones, B Kang, D Kang, W Kang, X Kappes, A Kappesser, D Kardum, L Karg, T Karl, M Karle, A Katz, U Kauer, M Kelley, J Khatee Zathul, A Kheirandish, A Kiryluk, J Klein, S Kochocki, A Koirala, R Kolanoski, H Kontrimas, T Kopke, L Kopper, C Koskinen, J Koundal, P Kovacevich, M Kowalski, M Kozynets, T Jayakumar, K Kruiswijk, K Krupczak, E Kumar, A Kun, E Neilson, N Lad, N Lagunas Gualda, C Lamoureux, M Larson, M Latseva, S Lauber, F Lazar, J Lee, J Leonard DeHolton, K Leszczynska, A Lincetto, M Liu, Q Liubarska, M Lohfink, E Love, C Lozano Mariscal, C Lu, L Lucarelli, F Luszczak, W Lyu, Y Madsen, J Mahn, K Makino, Y Manao, E Mancina, S Marie Sainte, W Maris, I Marka, S Marka, Z Marsee, M Martinez-Soler, I Maruyama, R Mayhew, F McElroy, T McNally, F Mead, J Meagher, K Mechbal, S Medina, A Meier, M Merckx, Y Merten, L Micallef, J Mitchell, J Montaruli, T Moore, R Morii, Y Morse, B Moulai, M Naab, R Nagai, R Nakos, M Naumann, U Necker, J Negi, A Neumann, M Niederhausen, H Nisa, M Noell, A Novikov, A Nowicki, S Pollmann, A O'Dell, V Oehler, M Oeyen, B Olivas, A Orsoe, R Osborn, J O'Sullivan, E Pandya, H Park, N Parker, G Paudel, E Paul, L Pérez de los Heros, C Peterson, J Philippen, S Pizzuto, A Plum, M Ponten, A Popovych, Y Prado Rodriguez, M Pries, B Procter-Murphy, R Przybylski, G Raab, C Rack-Helleis, J Rawlins, K Rechav, Z Rehman, A Reichherzer, P Renzi, G Resconi, E Reusch, S Rhode, W Riedel, B Rifaie, A Roberts, E Robertson, S Rodan, S Roellinghoff, G Rongen, M Rott, C Ruhe, T Ruohan, L Ryckbosch, D Safa, I Saffer, J Salazar-Gallegos, D Sampathkumar, P Sanchez Herrera, S Sandrock, A Santander, M Sarkar, S Savelberg, J Savina, P Schaufel, M Schieler, H Schindler, S Schlickmann, L Schlüter, B Schlüter, F Schmeisser, N Schmidt, T Schneider, J Schröder, F Schumacher, L Schwefer, G Sclafani, S Seckel, D Seikh, M Seunarine, S Shah, R Sharma, A Shefali, S Shimizu, N Silva, M Skrzypek, B Smithers, B Snihur, R Soedingrekso, J Sogaard, A Soldin, D Soldin, P Sommani, G Spannfellner, C Spiczak, G Spiering, C Stamatikos, M Stanev, T Stezelberger, T Sturwald, T Stuttard, T Sullivan, G Taboada, I Ter-Antonyan, S Thiesmeyer, M Thompson, W Thwaites, J Tilav, S Tollefson, K Tönnis, C Toscano, S Tosi, D Trettin, A Tung, C Turcotte, R Twagirayezu, J Ty, B Unland Elorrieta, M Upadhyay, A Upshaw, K Valtonen-Mattila, N Vandenbroucke, J van Eijndhoven, N Vannerom, D van Santen, J Vara, J Veitch-Michaelis, J Venugopal, M Vereecken, M Verpoest, S Veske, D Vijai, A Walck, C Weaver, C Weigel, P Weindl, A Weldert, J Wendt, C Werthebach, J Weyrauch, M Whitehorn, N Wiebusch, C Willey, N Williams, D Witthaus, L Wolf, A Wolf, M Wrede, G Xu, X Yanez, J Yildizci, E Yoshida, S Young, R Yu, F Yu, S Yuan, T Zhang, Z Zhelnin, P Zimmerman, M 1504 (16 Sep 2023)
A structure theorem for streamed information
 Salvi, C Diehl, J Lyons, T Preiss, R Reizenstein, J Journal of Algebra (01 Aug 2023)
Imperfect chimera and synchronization in a hybrid adaptive conductance based exponential integrate and fire neuron model
 Kanagaraj, S Moroz, I Durairaj, P Karthikeyan, A Rajagopal, K Cognitive Neurodynamics volume 18 issue 2 473-484 (24 Aug 2023)
Imperfect chimera and synchronization in a hybrid adaptive conductance based exponential integrate and fire neuron model.
 Kanagaraj, S Moroz, I Durairaj, P Karthikeyan, A Rajagopal, K Cognitive neurodynamics volume 18 issue 2 473-484 (24 Apr 2024)
Harnessing oscillatory fluid behaviour to improve debris wash-out in ureteroscopy
 Reynolds, H Turney, B Waters, S Moulton, D Frontiers in Urology volume 3 (30 Aug 2023)
Mechanics reveals the role of peristome geometry in prey capture in carnivorous pitcher plants (Nepenthes)
 Moulton, D Oliveri, H Goriely, A Thorogood, C Proceedings of the National Academy of Sciences of USA volume 120 issue 38 (07 Sep 2023)
Wed, 13 Sep 2023
17:00
Lecture Theatre 1

Four Ways of Thinking: Statistical, Interactive, Chaotic and Complex - David Sumpter

David Sumpter
Further Information

Mathematics is about finding better ways of reasoning. But for many applied mathematicians, the primary mission is to shape their minds in a way that gets them closer to the truth. The calculations are secondary, the real question is: how can we better understand the world around us?

David will take us on a journey through applied mathematics from statistics all the way to complexity theory, lifting examples from his work with football clubs — signing the best players (statistical thinking) or organising an attack (complex thinking) - and from every day life —  bickering less with our partners (interactive thinking) and learning to let go (chaotic thinking). David reimagines applied mathematics as a set of tools for life, from big work decisions to how we treat our friends, family and work colleagues. No problem is too big or too small for a mathematical solution.

Professor David Sumpter is author of five books including Soccermatics (2016), Outnumbered (2018) and Four Ways of Thinking (2023). His research covers everything from the inner workings of fish schools and ant colonies, through social psychology and segregation in society, to machine learning and artificial intelligence. He has consulted for leading football clubs and national teams and has written for The Economist 1843, The Telegraph, The Guardian, Prospect and FourFourTwo magazine.

Please email @email to register.

The lecture will be broadcast on our YouTube Channel exactly three weeks later, 5pm, 4th October and any time after.

The Oxford Mathematics Public Lectures are generously supported by XTX Markets.

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Mon, 16 Jan 2023
13:00
L1

TBA

Tue, 28 Nov 2023
13:00
L1

Global structures of SQFTs from rank-one Seiberg-Witten geometries

Cyril Closset
(Birmingham)
Abstract

 I will explore subtle aspects of rank-one 4d N=2 supersymmetric QFTs through their low-energy Coulomb-branch physics. This low-energy Lagrangian is famously encoded in the Seiberg-Witten (SW) curve, which is a one-parameter family of elliptic curves. Less widely appreciated is the fact that various properties of the QFTs, including properties that cannot be read off from the Lagrangian, are nonetheless encoded into the SW curve, in particular in its Mordell-Weil group. This includes the global form of the flavour group, the one-form symmetries under which defect lines are charged, and the "global form" of the theory. In particular, I will discuss in detail the difference between the pure SU(2) and the pure SO(3) N=2 SYM theories from this perspective. I will also comment on 5d SCFTs compactified on a circle in this context.

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