↓ Skip to Main Content
Physics Division

A-Z Index | Directory | Search

Physics Division

Main Navigation

  • Research
    • ATLAS
    • Lepton Flavor Physics
    • Cosmology
    • Dark Matter
    • Theoretical Physics
    • Machine Learning
    • Quantum Information Science
    • Detector R&D and Microelectronics
    • PDG
  • News
  • Seminars & Events
    • Physics Division Calendar
    • RPM Seminars
    • INPA Seminars
    • Physics Indico
    • Event Gallery
  • Safety
    • Safety
    • Physics ISM
    • Safety Contacts
    • Safety Talks
    • First Aid Kit Locations
    • Harassment and Discrimination
  • Stewardship
  • Resources
    • Education and Outreach
    • Computer Equipment Policy
    • Internal Resources
    • Data Management
    • Physics Talks
    • Physics Information Technology
    • Division Historical Materials
    • Edit Site (Internal)
  • Opportunities
  • Directory
  • About Us
    • Division Office
    • Organization
    • Committees
    • LBNL & Division Policies
    • Employment Opportunities
    • Visitor Information
    • Contact Us

New calibration of the ‘red giant method’ improves measurement of the Hubble constant

Bryan Abshier Posted on March 23, 2023 Posted in Uncategorized
Image of 3D measurement plot

New calibration of the ‘red giant method’ improves measurement of the Hubble constant

In his new paper in Nature Astronomy, Taylor Hoyt – a researcher in Berkeley Lab’s Physics Division – presents a new approach to calibrating the measurement of the universe’s present day expansion rate.

Post navigation

Previous Post is ‹ Searches for Massive Neutrinos with Mechanical Quantum Sensors
Next Post is Cosmic Coding ›

A U.S. Department of Energy National Laboratory Operated by the University of California
Questions & Comments | Privacy & Security Notice