Active Projects Table Test
This is a test using the table paragraph on a listing page content type. This page doesn't have left navigation so in theory the table can be displayed wider.
| Active Project Title |
| A compact positron source for multidisciplinary science |
| Adaptive X-ray Imaging of Sparse Samples Using Reinforcement Learning |
| Advanced Mid-Infrared Laser Sources for LCLS-II and Beyond |
| Advancing Multidimensional Spectroscopies: Development of Broadband, Temporally Shaped UV Laser Pulses Using an Adaptive Pulse Shape |
| Ahmed Startup LDRD: Experimental Research in Cosmic Inflation and Growth of Structure |
| AI-guided autonomous atomic-layer synthesis and process exploration of microelectronic materials for future back-end-of-line energy efficient microelectronic technologies |
| Benchmarking Interatomic Potentials for Fusion Materials Applications |
| Calibration of superconducting sensors for low-mass dark matter detection |
| Center for Artificial Intelligence for NU Physics - an Incubator for Physics Discovery Pipelines |
| Collider Research, Education, and Design (CRED) |
| Conceptual design of a 1.N-call, 2856 MHz, normal-conducting electron source with a transmission mode photocathode for ultrafast electron diffraction |
| Cryo-CMOS for superconducting qubits: enabling quantum computing and dark matter experiments |
| Cryo-Em Enabled Investigation Of Dynamic Structure-Function Relationships At Electrified Ionomer| Catalyst Interfaces For Water Electrolysis |
| Data-driven discovery of high-diffusivity materials for fast charging batteries |
| Design of energy-efficient analog processors for edge computing and learning |
| Develop Machine Learning Model for End-to-end alignment of electron probes integrated with 1-MHz LCLS-II |
| Developing Josephson Microwave Microscopy for Studying Fractional Quantum Hall Effect |
| Developing new sensing modalities for neutrino physics experiments with nuclei |
| Developing Simulated soil Platforms to Visualize Rhizosphere Biological and Environmental Processes |
| Developing Stochastic Correlation Spectroscopy for Sub-eV Resolution X-ray Scattering from Dense Plasmas |
| Developing World Class Computationally Spectroscopic Technique to Understand Dynamical Properties of Strongly Correlated Materials at LCLS-II and SSRL |
| Development of ADMX-CM axion haloscope at SLAC |
| Development of Photosynthetic Methane and hydrogen Transforming Biohybrids Platforms |
| Development of XLZD: Critical technologies for a 100-tonne-class LXe TPC to search for dark matter and other rare processes |
| Driving Discoveries with Exascale Bayesian Experimental Design |
| DynaBoost: Selective Enhancement and Interpretation of X-ray Scattering Signals from Protein Crystals under Terahertz Excitation |
| Enhancing Anomaly Detection Searches at Collider Experiments |
| Enhancing Collider Experiments with eFPGA-based Machine Learning for On-Detector Data Processing |
| Enhancing the haloscope for Axion Searches |
| Expanding the reach of xenon-based dark matter experiments |
| Hexagonal Boron Nitride Quantum Sensor for Battery |
| High-Efficiency, High-Resolution mm-wave Spectrometers for Next-Generation Cosmological Constraints |
| High-Precision Heterogeneous Catalysis by Quantum Monte Carlo |
| Imaging of Structural Dynamics at Surfaces and Interfaces |
| Improving DUNE Energy Resolution with the GAMPix Readout |
| Integrating Cryogenic Electron Microscopy Methods with DOE-Relevant Materials Science Research at SSRL |
| Integration of advanced optical microscopy methods in a FIB-SEM for biological investigations |
| Intertwining excitonic and symmetry-breaking orders in rhombohedral graphene |
| Isochronous Induction Cell Storage Ring |
| Measuring the electronic properties of materials under extreme pressure and temperature with terahertz spectroscopy |
| Modulation Excitation X-ray Spectroscopy: Streamlining a Novel Technique for Redefining Catalysis Studies at Synchrotron Facilities |
| Neural representation of massive scientific datasets |
| Nonlinear Multi-pass Cell |
| Photoconductive sampling of space-charge fields |
| Physics Informed Diffusion Models for Unravelling the Complexity in Disorder |
| Physics informed probabilistic foundation models for CDI |
| Picosecond X-ray studies of Voltage- and laser-driven phase tnrasitions in functional electronic materials and device architectures |
| Probabilistic Event Detection at the Cosmic Frontier |
| Prototype fiber-feed for a Rubin Multi-Object Spectrograph |
| Quantum Microwave Photon Detectors for Dark Matter and Spin Detection |
| Rational design for mitigating fouling on ion-exchange membranes in electrochemical nutrient recovery techniques |
| Segmented Flow Microreactors for High-Throughput Sample Delivery |
| Selective excitation of high-wavevector collective modes |
| Structural characterization of pyrolysis intermediates using LCLS-II |
| Super computing for advancing molecular biology at SLAC |
| Theory & analysis infrastructure R&D for future cosmology from Rubin/DESI/LIM x CMB |
| Tracing Leaky Coherence Through Large Molecular Systems |
Active Project Fiscal Year 2025
- A compact positron source for multidisciplinary science
- Adaptive X-ray Imaging of Sparse Samples Using Reinforcement Learning
- Advanced Mid-Infrared Laser Sources for LCLS-II and Beyond
- Advancing Multidimensional Spectroscopies: Development of Broadband, Temporally Shaped UV Laser Pulses Using an Adaptive Pulse Shape
- Ahmed Startup LDRD: Experimental Research in Cosmic Inflation and Growth of Structure
- AI-guided autonomous atomic-layer synthesis and process exploration of microelectronic materials for future back-end-of-line energy efficient microelectronic technologies
- Benchmarking Interatomic Potentials for Fusion Materials Applications
- Calibration of superconducting sensors for low-mass dark matter detection
- Center for Artificial Intelligence for NU Physics - an Incubator for Physics Discovery Pipelines
- Collider Research, Education, and Design (CRED)
- Conceptual design of a 1.N-call, 2856 MHz, normal-conducting electron source with a transmission mode photocathode for ultrafast electron diffraction
- Cryo-CMOS for superconducting qubits: enabling quantum computing and dark matter experiments
- Cryo-Em Enabled Investigation Of Dynamic Structure-Function Relationships At Electrified Ionomer| Catalyst Interfaces For Water Electrolysis
- Data-driven discovery of high-diffusivity materials for fast charging batteries
- Design of energy-efficient analog processors for edge computing and learning
- Develop Machine Learning Model for End-to-end alignment of electron probes integrated with 1-MHz LCLS-II
- Developing Josephson Microwave Microscopy for Studying Fractional Quantum Hall Effect
- Developing new sensing modalities for neutrino physics experiments with nuclei
- Developing Simulated soil Platforms to Visualize Rhizosphere Biological and Environmental Processes
- Developing Stochastic Correlation Spectroscopy for Sub-eV Resolution X-ray Scattering from Dense Plasmas
- Developing World Class Computationally Spectroscopic Technique to Understand Dynamical Properties of Strongly Correlated Materials at LCLS-II and SSRL
- Development of ADMX-CM axion haloscope at SLAC
- Development of Photosynthetic Methane and hydrogen Transforming Biohybrids Platforms
- Development of XLZD: Critical technologies for a 100-tonne-class LXe TPC to search for dark matter and other rare processes
- Driving Discoveries with Exascale Bayesian Experimental Design
- DynaBoost: Selective Enhancement and Interpretation of X-ray Scattering Signals from Protein Crystals under Terahertz Excitation
- Enhancing Anomaly Detection Searches at Collider Experiments
- Enhancing Collider Experiments with eFPGA-based Machine Learning for On-Detector Data Processing
- Enhancing the haloscope for Axion Searches
- Expanding the reach of xenon-based dark matter experiments
- Hexagonal Boron Nitride Quantum Sensor for Battery
- High-Efficiency, High-Resolution mm-wave Spectrometers for Next-Generation Cosmological Constraints
- High-Precision Heterogeneous Catalysis by Quantum Monte Carlo
- Imaging of Structural Dynamics at Surfaces and Interfaces
- Improving DUNE Energy Resolution with the GAMPix Readout
- Integrating Cryogenic Electron Microscopy Methods with DOE-Relevant Materials Science Research at SSRL
- Integration of advanced optical microscopy methods in a FIB-SEM for biological investigations
- Intertwining excitonic and symmetry-breaking orders in rhombohedral graphene
- Isochronous Induction Cell Storage Ring
- Measuring the electronic properties of materials under extreme pressure and temperature with terahertz spectroscopy
- Modulation Excitation X-ray Spectroscopy: Streamlining a Novel Technique for Redefining Catalysis Studies at Synchrotron Facilities
- Neural representation of massive scientific datasets
- Nonlinear Multi-pass Cell
- Photoconductive sampling of space-charge fields
- Physics Informed Diffusion Models for Unravelling the Complexity in Disorder
- Physics informed probabilistic foundation models for CDI
- Picosecond X-ray studies of Voltage- and laser-driven phase tnrasitions in functional electronic materials and device architectures
- Probabilistic Event Detection at the Cosmic Frontier
- Prototype fiber-feed for a Rubin Multi-Object Spectrograph
- Quantum Microwave Photon Detectors for Dark Matter and Spin Detection
- Rational design for mitigating fouling on ion-exchange membranes in electrochemical nutrient recovery techniques
- Segmented Flow Microreactors for High-Throughput Sample Delivery
- Selective excitation of high-wavevector collective modes
- Structural characterization of pyrolysis intermediates using LCLS-II
- Super computing for advancing molecular biology at SLAC
- Theory & analysis infrastructure R&D for future cosmology from Rubin/DESI/LIM x CMB
- Tracing Leaky Coherence Through Large Molecular Systems
