Abstract: The mini-course is an introductory and self-contained approach to the method of intrinsic scaling, aiming at bringing to light what is really essential in this powerful tool in the analysis of degenerate and singular equations. The theory is presented from scratch for the simplest model case of the degenerate p-Laplace equation, leaving aside
technical renements needed to deal with more general situations. A striking feature of the method is its pervasiveness in terms of the applications and I hope to convince the audience of its strength as a systematic approach to regularity for an important and relevant class of nonlinear partial dierential equations. I will extensively follow my book
14 , with complements and extensions from a variety of sources (listed in the references), mainly
6,7,17

10/16()09:00 11:00 Lecture I.
An impressionist history lesson: from Hilbert's 19th problem to DeGiorgi-Nash-Moser theory; the quasilinear case { contributions from the Russian school; enters DiBenedetto { the method of intrinsic scaling.

10/17()09:00- 11:00 Lecture II.
The building blocks of the theory: local energy and logarithmic estimates. The geometric setting and an alternative.

10/19()09:00 -11:00 Lecture III.
The rst alternative: getting started; expansion in time and the role of the logarithmic estimates; reduction of the oscillation.

10/22()09:00 -11:00 Lecture IV.
Towards the Holder continuity: the second alternative; the recursive argument.

10/23()09:00 -11:00 Lecture V.
The singular case and further generalisations: immiscible uids and chemotaxis; phase transitions.
List
Subject
May 25, 2022  16:00-18:00  Spectral Heat Content for Jump Processes file Hyunchul Park  129-406 
Oct 17, 2014  16:00-17:00  Mathematical analysis of Electrified Thin film Hyung Ju Hwang  129-301 
Mar 08, 2016  17:00-18:00  Convergence group Hyungryul Baik  129-301 
Dec 15, 2015  16:00-17:00  Coordinate systems of higher Teichmuller spaces Hyunkyu Kim  129-104 
Jan 26, 2015  13:00-18:00  Short introduction to Riemannian geometry and eigenvalues of the Laplacian Hyunsuk Kang  129-301 
Jan 28, 2015  13:00-18:00  Short introduction to Riemannian geometry and eigenvalues of the Laplacian Hyunsuk Kang  129-301 
Oct 26, 2022  16:00-18:00  Free Probability, Regularity, and Free Stein Dimension Ian Charlesworth  129-406 
Jul 04, 2022  15:00-17:00  Free Random Variables followed by the Semicircular Law Il Woo Cho  129-406 
Jun 30, 2023  15:00-17:00  On Scaled-Hypercomplex Numbers Il Woo Cho  129-309 
Feb 26, 2024  15:00-16:00  Heterogeneous diffusion: uniqueness, non-uniqueness, and selection Ilya Pavlyukevich  129-301 
Jul 20, 2016  16:00-18:00  Metastable behavior of the dynamics perturbed by a small random noise Insuk Seo  129-301 
Jun 09, 2015  14:00-16:00  Statistical Modeling for Real Data Analysis Inyoung Kim  129-301 
Jun 08, 2016  10:00-12:00, 13:30-14:30  The flexible Bayesian hierarchical modeling’s and their application in the Analysis of Financial Data Inyoung Kim  129-406 
Feb 23, 2016  16:00-18:00  Using Random Matrices in Quantum Information Theory Ion Nechita  129-301 
Feb 24, 2016  16:00-18:00  Using Random Matrices in Quantum Information Theory Ion Nechita  129-301 
Feb 22, 2016  16:00-18:00  Using Random Matrices in Quantum Information Theory Ion Nechita  129-301 
Oct 12, 2022  11:00-12:00  Derivation of the Vlasov equation from quantum many-body Fermionic systems with singular interaction file Jacky Chong  선택 
Apr 27, 2016  17:00-18:00  Quantitative topology and Cheeger-Gromov universal bounds Jae Choon Cha  129-104 
Nov 30, 2015  15:00-16:00  Spectral methods for convection-diffusion problems Jae-Hun Jung  선택 
Dec 01, 2015  15:00-16:00  Pseudospectral methods for hyperbolic equations Jae-Hun Jung  선택 
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