Not exact matches
Realizing these so - called «topographical defects» within a well - controlled system opens up new possibilities when it comes to
investigating quantum
phase transitions and looking in detail into the non-equilibrium dynamics of complex systems.
For example, this could mean
investigating whether the predicted universal relation is valid qualitatively or quantitatively for the same type and different type of quantum
phase transitions occurring in other models than that considered here.
The University of Arkansas research team
investigated the liquid — liquid
phase transition using a simulation model called Water potential from Adaptive Force Matching for Ice and Liquid (WAIL).
The research team's successful work opens up possibilities for
investigating graphite - to - diamond
phase transition in two - dimensional materials, according to the paper.
Our group has 3 major goals: Develop novel therapeutic approaches based on centrosomal clustering To further develop our first prototype inhibitors of centrosomal clustering preclinically and to establish a robust and specific high throughput small molecule screen Discover key events in myeloma pathogenesis To
investigate the pivotal
transition from the pre-malignant, asymptomatic to malignant, symptomatic stages of plasma cell dyscrasias in order to understand the pathophysiology and thereby identify novel targets Translate small molecule therapeutics from bench to clinical trials To evaluate novel agents in the preclinical setting and to initiate early
phase clinical trials in hematologic malignancies with focus on multiple myeloma