Tutorials
Tutorial on Fundamentals of Phase Transitions by Prof. Kurt Hingerl, JKU
Topics include: The importance of phonons; Phase equilibria and Gibbs Phase rule; The importance of p-T-x phase diagrams; Ehrenfest classification of the order of phase transitions, how to measure them;
Homogeneous and heterogeneous phase transitions and simple models for describing the kinetics of equilibrium phase transitions (Johnson, Avrami, Kolmogorov ); Nonequilibrium phase transitions, as example of martensite, memory materials.
Homogeneous and heterogeneous phase transitions and simple models for describing the kinetics of equilibrium phase transitions (Johnson, Avrami, Kolmogorov ); Nonequilibrium phase transitions, as example of martensite, memory materials.
Tutorial on Fundamentals of Phase Transitions by Maria Graml, JKU
Topics include:
•Microscopic theories and simulation tools using Hamilton functions and statistical mechanics => the partition function for computing G.
•Towards a mathematical description of phase transitions with order parameter and the Landau approach.
For content, please contact: Mario Graml <[email protected]>
•Microscopic theories and simulation tools using Hamilton functions and statistical mechanics => the partition function for computing G.
•Towards a mathematical description of phase transitions with order parameter and the Landau approach.
For content, please contact: Mario Graml <[email protected]>
Conference Talks
Perspective of reconfigurability of devices by low-dimensional optical phase-change III-V chalcogenides.
By Prof. Maria Losurdo at SPIE OPTICS+PHOTONICS. Download the video here.
By Prof. Maria Losurdo at SPIE OPTICS+PHOTONICS. Download the video here.
Optical characterization of phase-change materials for reconfigurable devices: GaS, Ga2S3 and MoOx. Their Plasmonics and beyond.
By Prof. Fernando Moreno at SPIE Optical Systems Design. Download the video here.
By Prof. Fernando Moreno at SPIE Optical Systems Design. Download the video here.
Available thesis from consortium on topics relevant to PHEMTRONICS program: