Columbia University, New York, NY

 
 

Medical Sciences Division (BER)

  • Mechanisms of the Bystander Effect

  • The Adaptive Response, Genetic Haplo-Insufficiency and Genomic Instability

  • Cellular Response to Low Dose Radiation: Role of Phosphatidylinositol-3 Kinase Like Kinases

  • Noninvasive Imaging of Administered Progenitor Cells

  • 7th International Workshop on Microbeam Probes of Cellular Radiation Response

Climate Change Research Division (BER) 

  • Collaborative Research: Regional Climate-Change Projections Through

Physics Research Division (NP)

  • Theory of Ultra-Dense Matter and the Dynamics of High Energy Interactions Involving Nuclei

  • High Transverse Momentum Probes of Ultra-Dense Matter Created in Heavy Ion Collisions

Materials Sciences and Engineering Division (BES) 

  • Theory of Surface and Interface Properties of Correlated Electron Materials

  • Mapping the Electron Response of Nanomaterials

  • Electronics from Nano-Scale Crystals

  • Electric Transport in Novel 2-Dimensional Nanoscale Systems

Chemical Sciences, Geosciences, & Biosciences Division (BES) 

  • Fundamental Studies of Metal Centered Transformations Relevant to Catalysis

  • Photochemistry at Interfaces

  • Theoretical Studies of Photoactive Molecular Systems:  Electron Transfer, Energy Transport, and Optical Spectroscopy

  • Laser Dynamic Studies of Photoreactions on Single-Cyrstal and Nanostructured Surfaces

  • Catalytic Applications of H. Transfer from Transitiion-Metal Hydride Complexes

  • Scanning Tunneling Microscopy Studies of Chemistry on Graphite Surfaces

  • Controlling Structural, Electronic, and Energy Flow Dynamics of Catalytic Processes Through Tailored

  • Synthesis, Directed Assembly, and Local Probe Measurements of Dipolar, Organic Nanostructures

  • Metallic Carbon Nanotubes and Silver Nanocrystals

Office of the Associate Director (HEP)

  • Theoretical High Energy Physics

  • Experimental Research on a Laser Cyclotron Autoresonance Accelerator

Mathematical, Information, & Computational Sciences Division (ASCR) 

  • Migration Mechanisms for Large-Scale Parallel Applications

  • Gyrokinetic Particle Simulations of Turbulent in Burning Plasmas

  • Algorithms for Mathematical Programming

  • Towards Optimal Petascale Simulations (TOPS)

Research Division (FES)

  • MHD Mode Control Research in DIII-D

  • Resistive Wall Modes and Error Field Amplification

  • Resistive Wall Modes, Neoclassical Transport, and Stellarator Design

  • High Beta Tokamak Research

  • Levitated Dipole Experiment

  • Basic Physics of Tokamak Transport and Feedback Control

  • Study of MHD Stability and Active Mode Control in NSTX

  • Nonlinear Dynamics of Strong Interchange Instabilities in a Rotating Dipole-Confined Plasma

  • Stellarator Theory

  • Center for Plasma Edge Simulations

  • Center for Simulation of Wave Interactions with Magnetohydrodynamics

 

*Total Amount Funded by the Office of Science for FY06 ($ in thousands): $9,527