We show that Lubin-Tate spectra at the prime ${\displaystyle 2}$ are Real oriented and Real Landweber exact.  The proof is an application of the Goerss--Hopkins--Miller theorem to algebras with involution.  For each height ${\displaystyle n}$, we compute the entire homotopy fixed point spectral sequence for ${\displaystyle E_n}$ with its ${\displaystyle C_2}$-action by the formal inverse.  We study, as the height varies, the Hurewicz images of the stable homotopy groups of spheres in the homotopy of these ${\displaystyle C_2}$-fixed points.  Then, I will talk about the slice spectral sequence of a ${\displaystyle C_4}$-equivariant spectrum.  This spectrum is a variant of the detection spectrum of Hill--Hopkins--Ravenel and is very closely related to the height 4 Lubin--Tate theory.

Quantization is known as a way of constructing (noncommutative) quantum mechanical system from (commutative) classical mechanical system, mathematically forming operators from ordinary functions. The word `` quantize'' means ``discretize'' and we discuss where it came from by reviewing the motivation and background of quantum mechanics.
Then we discuss mathematical formulation of (deformation) quantizations and introduce two ${\displaystyle C^{*}}$-algebras, noncommutative two tori and quantum Heisenberg manifolds, which are main examples of Rieffel's strict deformation quantizations.  We also introduce noncommutative (or quantum) Yang-Mills theory developed by Connes and Rieffel on noncommutative tori, and then review some of the results of Yang-Mills connections on noncommutative two tori and quantum Heisenberg manifolds if we have time.

TBA