DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» AgInSbTe
AgInSbTe
Crystallization Kinetics of Chalcogenide Glasses
Unraveling the Crystallization Kinetics of Supercooled Liquid Gete By
Measurement of Crystal Growth Velocity in a Melt-Quenched Phase-Change Material
Structure of Liquid Phase Change Material Aginsbte from Density Functional/ Molecular Dynamics Simulations J
Study of the Glass Press Molding Process
Crystallization Kinetics of Sputter-Deposited Amorphous Aginsbte Films Walter K
1/17 This Manuscript Was Published In: Nature Materials, Volume
Mushahid Husain Zishan Husain Khan Editors Advances in Nanomaterials Advanced Structured Materials
Appendix – International Standards Standards Int
Exploring Ultrafast Threshold Switching in In3sbte2 Phase Change Memory Devices Nishant Saxena 1, Christoph Persch 2, Matthias Wuttig 2 & Anbarasu Manivannan 3*
Variation of Microstructure and Electrical Conductivity of Amorphous Aginsbte and Sbte Films During Crystallization
Crystallization Dynamics of As-Deposited Amorphous Aginsbte Thin Film Induced by Picosecond Laser Pulses
Thermal Characterization of Se80-Xte20inx Glasses Using Iso-Conversional Methods
Pressure Tunes Electrical Resistivity by Four Orders of Magnitude In
Abstract Book
Optical–Electrical Properties of Aginsbte Phase Change Thin Films
RICOH TECHNICAL REPORT No.33, 2007
How Supercooled Liquid Phase-Change Materials Crystallize: Snapshots After Femtosecond Optical Excitation
Top View
Samarium Monosulfide (Sms)
Machine Learning Unveils Composition- Property Relationships in Chalcogenide Glasses
Phase Change Dynamics and 2-Dimensional 4-Bit Memory
Characterization of Gesbte Films by Spectroscopic Ellipsometry for Rewritable Optical Discs
A Model for the Phase-Change Process in Gesbte Thin Films Used for Optical and Electrical Data Storage
Aneesur Rahman (1927- 87)
Phase Change Optical Recording - Preparation and X-Ray Characterization of Gesbte and Aginsbte films
Controlling Oxygen Coordination and Valence of Network Forming Cations
Reconfigurable Optical Devices Utilizing Chalcogenide Phase
High-Speed Maskless Nanolithography with Visible Light
Physical Properties and Applications of Chalcogenide Glasses
Unraveling the Optical Contrast in Sb2te and Aginsbte Phase-Change Materials