Chromatic homotopy theory

Let ${\displaystyle L_{E(n)}}$ denotes the Bousfield localization with respect to the Morava E-theory and let ${\displaystyle X}$ be an ${\displaystyle E(n)}$-local spectrum[1]. For example, ${\displaystyle L_{E(0)}X}$ is the rational localization and ${\displaystyle L_{E(1)}X}$ is the localization with respect to p-local K-theory. Then, there is a tower associated to the localizations

${\displaystyle \cdots \rightarrow L_{E(2)}X\rightarrow L_{E(1)}X\rightarrow L_{E(0)}X}$

called the chromatic tower, such that its homotopy limit it homotopic to the original spectrum ${\displaystyle X}$.

In particular, if the ${\displaystyle p}$-local spectrum ${\displaystyle X}$ is the spectrum of the stable ${\displaystyle p}$-local sphere spectrum ${\displaystyle \mathbb {S} _{(p)}}$, then the homotopy limit of this sequence is the original ${\displaystyle p}$-local sphere spectrum.