The NSF Division of Physics offers this Experimental Elementary Particle Physics (EPP) grant to advance our understanding of matter, energy, space, and time through accelerator experiments. This grant addresses fundamental questions like the origin of mass, the unification of forces, the universe’s evolution, dark energy, and potential extra dimensions, bridging cosmology with quantum phenomena. The EPP program supports accelerator-based research, including experiments at facilities like the Large Hadron Collider and new neutrino experiments utilizing high-intensity beams. It also fosters advancements in accelerator and detector technology, distributed computing for collaborative research, and engages K-12 educators in scientific endeavors.
Opportunity ID: 93897
General Information
| Document Type: | Grants Notice |
| Funding Opportunity Number: | PD-11-1221 |
| Funding Opportunity Title: | Experimental Elementary Particle Physics |
| Opportunity Category: | Discretionary |
| Opportunity Category Explanation: | – |
| Funding Instrument Type: | Grant |
| Category of Funding Activity: | Science and Technology and other Research and Development |
| Category Explanation: | – |
| Expected Number of Awards: | 20 |
| Assistance Listings: | 47.049 — Mathematical and Physical Sciences |
| Cost Sharing or Matching Requirement: | No |
| Version: | Synopsis 3 |
| Posted Date: | May 13, 2011 |
| Last Updated Date: | May 14, 2012 |
| Original Closing Date for Applications: | Oct 26, 2011 Full Proposal Target Date(s): October 26, 2011 Last Wednesday in October, Annually Thereafter Target from PHY DCL |
| Current Closing Date for Applications: | – Replaced by PD-12-1221. |
| Archive Date: | May 14, 2012 |
| Estimated Total Program Funding: | $50,000,000 |
| Award Ceiling: | – |
| Award Floor: | $300,000 |
Eligibility
| Eligible Applicants: | Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled “Additional Information on Eligibility” |
| Additional Information on Eligibility: | – |
Additional Information
| Agency Name: | U.S. National Science Foundation |
| Description: | Particle physics plays an essential role in the broader enterprise of the physical sciences. It inspires U.S. students, attracts talent from around the world, and drives critical intellectual and technological advances in other fields. And it is entering an era of unprecedented potential as a result of new discoveries about matter and energy in the Universe. It seeks to explore, through accelerator experiments, the fundamental nature of matter, energy, space, and time. It asks such questions as: What are the origins of mass? Can the basic forces of nature be unified? How did the universe begin? How will it evolve in the future? What is dark energy? Are there extra dimensions beyond space-time? Formerly separate questions in cosmology (the universe on the largest scales) and quantum phenomena (the universe on the smallest scales) become connected through our understanding that the early universe can be explored through the techniques of particle physics.At the NSF, particle physics is supported by three programs within the Division of Physics: (1), the Theory program which includes fundamental research on the forces of nature and the early history of the universe as well as support for the experimental program by providing guidance and analysis for high energy experiments; (2), the Elementary Particle Physics (EPP) program which supports particle physics at accelerators, and (3) the Particle Nuclear Astrophysics (PNA) program which supports non- accelerator experiments. The EPP program supports, for example, accelerator experiments at the Tevatron at Fermilab, and collider experiments utilizing the Large Hadron Collider (LHC) at CERN in Geneva, Switzerland. The challenge of designing detectors for the LHC is unprecedented, as they are required to observe up to 600 million collisions each second. Yet some of the phenomena physicists are searching for will take place at the rate of only a few per day. These include possible discoveries such as a particle called the Higgs that is thought to endow other particles with mass, new forms of matter that explain the mysterious dark matter pervading the cosmos and even phenomena that reveal new dimensions of spacetime.A new generation of neutrino experiments, using beams from Fermilab and other accelerators in Europe and Japan, have set out to study this elusive, quantum-oscillating particles under laboratory-controlled conditions. The new experiments probe high-intensity neutrino beams produced by particle accelerators. The beams travel hundreds of miles through the Earth to underground detectors that measure changes in the composition of the neutrino beam.EPP also supports advances in accelerator physics and detectors at acceleratorsand new methods of utilizing distributed computing in support of collaborative research, for example, grid development, both nationally and internationally. The program also engages K-12 educators, who participate in experiments with University Scientists and Students. |
| Link to Additional Information: | NSF Program Desccription 11-1221 |
| Grantor Contact Information: | If you have difficulty accessing the full announcement electronically, please contact:
NSF grants.gov support
grantsgovsupport@nsf.gov Email:grantsgovsupport@nsf.gov |
Version History
| Version | Modification Description | Updated Date |
|---|---|---|
| May 14, 2012 | ||
| May 14, 2012 | ||
| Jan 05, 2012 |
DISPLAYING: Synopsis 3
General Information
| Document Type: | Grants Notice |
| Funding Opportunity Number: | PD-11-1221 |
| Funding Opportunity Title: | Experimental Elementary Particle Physics |
| Opportunity Category: | Discretionary |
| Opportunity Category Explanation: | – |
| Funding Instrument Type: | Grant |
| Category of Funding Activity: | Science and Technology and other Research and Development |
| Category Explanation: | – |
| Expected Number of Awards: | 20 |
| Assistance Listings: | 47.049 — Mathematical and Physical Sciences |
| Cost Sharing or Matching Requirement: | No |
| Version: | Synopsis 3 |
| Posted Date: | May 13, 2011 |
| Last Updated Date: | May 14, 2012 |
| Original Closing Date for Applications: | Oct 26, 2011 Full Proposal Target Date(s): October 26, 2011 Last Wednesday in October, Annually Thereafter Target from PHY DCL |
| Current Closing Date for Applications: | – Replaced by PD-12-1221. |
| Archive Date: | May 14, 2012 |
| Estimated Total Program Funding: | $50,000,000 |
| Award Ceiling: | – |
| Award Floor: | $300,000 |
Eligibility
| Eligible Applicants: | Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled “Additional Information on Eligibility” |
| Additional Information on Eligibility: | – |
Additional Information
| Agency Name: | U.S. National Science Foundation |
| Description: | Particle physics plays an essential role in the broader enterprise of the physical sciences. It inspires U.S. students, attracts talent from around the world, and drives critical intellectual and technological advances in other fields. And it is entering an era of unprecedented potential as a result of new discoveries about matter and energy in the Universe. It seeks to explore, through accelerator experiments, the fundamental nature of matter, energy, space, and time. It asks such questions as: What are the origins of mass? Can the basic forces of nature be unified? How did the universe begin? How will it evolve in the future? What is dark energy? Are there extra dimensions beyond space-time? Formerly separate questions in cosmology (the universe on the largest scales) and quantum phenomena (the universe on the smallest scales) become connected through our understanding that the early universe can be explored through the techniques of particle physics.At the NSF, particle physics is supported by three programs within the Division of Physics: (1), the Theory program which includes fundamental research on the forces of nature and the early history of the universe as well as support for the experimental program by providing guidance and analysis for high energy experiments; (2), the Elementary Particle Physics (EPP) program which supports particle physics at accelerators, and (3) the Particle Nuclear Astrophysics (PNA) program which supports non- accelerator experiments. The EPP program supports, for example, accelerator experiments at the Tevatron at Fermilab, and collider experiments utilizing the Large Hadron Collider (LHC) at CERN in Geneva, Switzerland. The challenge of designing detectors for the LHC is unprecedented, as they are required to observe up to 600 million collisions each second. Yet some of the phenomena physicists are searching for will take place at the rate of only a few per day. These include possible discoveries such as a particle called the Higgs that is thought to endow other particles with mass, new forms of matter that explain the mysterious dark matter pervading the cosmos and even phenomena that reveal new dimensions of spacetime.A new generation of neutrino experiments, using beams from Fermilab and other accelerators in Europe and Japan, have set out to study this elusive, quantum-oscillating particles under laboratory-controlled conditions. The new experiments probe high-intensity neutrino beams produced by particle accelerators. The beams travel hundreds of miles through the Earth to underground detectors that measure changes in the composition of the neutrino beam.EPP also supports advances in accelerator physics and detectors at acceleratorsand new methods of utilizing distributed computing in support of collaborative research, for example, grid development, both nationally and internationally. The program also engages K-12 educators, who participate in experiments with University Scientists and Students. |
| Link to Additional Information: | NSF Program Desccription 11-1221 |
| Grantor Contact Information: | If you have difficulty accessing the full announcement electronically, please contact:
NSF grants.gov support
grantsgovsupport@nsf.gov Email:grantsgovsupport@nsf.gov |
DISPLAYING: Synopsis 2
General Information
| Document Type: | Grants Notice |
| Funding Opportunity Number: | PD-11-1221 |
| Funding Opportunity Title: | Experimental Elementary Particle Physics |
| Opportunity Category: | Discretionary |
| Opportunity Category Explanation: | – |
| Funding Instrument Type: | Grant |
| Category of Funding Activity: | Science and Technology and other Research and Development |
| Category Explanation: | – |
| Expected Number of Awards: | 20 |
| Assistance Listings: | 47.049 — Mathematical and Physical Sciences |
| Cost Sharing or Matching Requirement: | No |
| Version: | Synopsis 2 |
| Posted Date: | May 14, 2012 |
| Last Updated Date: | – |
| Original Closing Date for Applications: | – |
| Current Closing Date for Applications: | Oct 31, 2012 Full Proposal Target Date(s): Last Wednesday in October, Annually Target from PHY DCL |
| Archive Date: | – |
| Estimated Total Program Funding: | $50,000,000 |
| Award Ceiling: | – |
| Award Floor: | $300,000 |
Eligibility
| Eligible Applicants: | Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled “Additional Information on Eligibility” |
| Additional Information on Eligibility: | – |
Additional Information
| Agency Name: | U.S. National Science Foundation |
| Description: | Particle physics plays an essential role in the broader enterprise of the physical sciences. It inspires U.S. students, attracts talent from around the world, and drives critical intellectual and technological advances in other fields. And it is entering an era of unprecedented potential as a result of new discoveries about matter and energy in the Universe. It seeks to explore, through accelerator experiments, the fundamental nature of matter, energy, space, and time. It asks such questions as: What are the origins of mass? Can the basic forces of nature be unified? How did the universe begin? How will it evolve in the future? What is dark energy? Are there extra dimensions beyond space-time? Formerly separate questions in cosmology (the universe on the largest scales) and quantum phenomena (the universe on the smallest scales) become connected through our understanding that the early universe can be explored through the techniques of particle physics.At the NSF, particle physics is supported by three programs within the Division of Physics: (1), the Theory program which includes fundamental research on the forces of nature and the early history of the universe as well as support for the experimental program by providing guidance and analysis for high energy experiments; (2), the Elementary Particle Physics (EPP) program which supports particle physics at accelerators, and (3) the Particle Nuclear Astrophysics (PNA) program which supports non- accelerator experiments. The EPP program supports, for example, accelerator experiments at the Tevatron at Fermilab, and collider experiments utilizing the Large Hadron Collider (LHC) at CERN in Geneva, Switzerland. The challenge of designing detectors for the LHC is unprecedented, as they are required to observe up to 600 million collisions each second. Yet some of the phenomena physicists are searching for will take place at the rate of only a few per day. These include possible discoveries such as a particle called the Higgs that is thought to endow other particles with mass, new forms of matter that explain the mysterious dark matter pervading the cosmos and even phenomena that reveal new dimensions of spacetime.A new generation of neutrino experiments, using beams from Fermilab and other accelerators in Europe and Japan, have set out to study this elusive, quantum-oscillating particles under laboratory-controlled conditions. The new experiments probe high-intensity neutrino beams produced by particle accelerators. The beams travel hundreds of miles through the Earth to underground detectors that measure changes in the composition of the neutrino beam.EPP also supports advances in accelerator physics and detectors at acceleratorsand new methods of utilizing distributed computing in support of collaborative research, for example, grid development, both nationally and internationally. The program also engages K-12 educators, who participate in experiments with University Scientists and Students. |
| Link to Additional Information: | NSF Program Desccription 11-1221 |
| Grantor Contact Information: | If you have difficulty accessing the full announcement electronically, please contact:
NSF grants.gov support
grantsgovsupport@nsf.gov Email:grantsgovsupport@nsf.gov |
DISPLAYING: Synopsis 1
General Information
| Document Type: | Grants Notice |
| Funding Opportunity Number: | PD-11-1221 |
| Funding Opportunity Title: | Experimental Elementary Particle Physics |
| Opportunity Category: | Discretionary |
| Opportunity Category Explanation: | – |
| Funding Instrument Type: | Grant |
| Category of Funding Activity: | Science and Technology and other Research and Development |
| Category Explanation: | – |
| Expected Number of Awards: | 20 |
| Assistance Listings: | 47.049 — Mathematical and Physical Sciences |
| Cost Sharing or Matching Requirement: | No |
| Version: | Synopsis 1 |
| Posted Date: | Jan 05, 2012 |
| Last Updated Date: | – |
| Original Closing Date for Applications: | – |
| Current Closing Date for Applications: | Oct 26, 2011 Full Proposal Target Date(s): October 26, 2011 Last Wednesday in October, Annually Thereafter Target from PHY DCL |
| Archive Date: | – |
| Estimated Total Program Funding: | $50,000,000 |
| Award Ceiling: | – |
| Award Floor: | $300,000 |
Eligibility
| Eligible Applicants: | Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled “Additional Information on Eligibility” |
| Additional Information on Eligibility: | – |
Additional Information
| Agency Name: | U.S. National Science Foundation |
| Description: | Particle physics plays an essential role in the broader enterprise of the physical sciences. It inspires U.S. students, attracts talent from around the world, and drives critical intellectual and technological advances in other fields. And it is entering an era of unprecedented potential as a result of new discoveries about matter and energy in the Universe. It seeks to explore, through accelerator experiments, the fundamental nature of matter, energy, space, and time. It asks such questions as: What are the origins of mass? Can the basic forces of nature be unified? How did the universe begin? How will it evolve in the future? What is dark energy? Are there extra dimensions beyond space-time? Formerly separate questions in cosmology (the universe on the largest scales) and quantum phenomena (the universe on the smallest scales) become connected through our understanding that the early universe can be explored through the techniques of particle physics.At the NSF, particle physics is supported by three programs within the Division of Physics: (1), the Theory program which includes fundamental research on the forces of nature and the early history of the universe as well as support for the experimental program by providing guidance and analysis for high energy experiments; (2), the Elementary Particle Physics (EPP) program which supports particle physics at accelerators, and (3) the Particle Nuclear Astrophysics (PNA) program which supports non- accelerator experiments. The EPP program supports, for example, accelerator experiments at the Tevatron at Fermilab, and collider experiments utilizing the Large Hadron Collider (LHC) at CERN in Geneva, Switzerland. The challenge of designing detectors for the LHC is unprecedented, as they are required to observe up to 600 million collisions each second. Yet some of the phenomena physicists are searching for will take place at the rate of only a few per day. These include possible discoveries such as a particle called the Higgs that is thought to endow other particles with mass, new forms of matter that explain the mysterious dark matter pervading the cosmos and even phenomena that reveal new dimensions of spacetime.A new generation of neutrino experiments, using beams from Fermilab and other accelerators in Europe and Japan, have set out to study this elusive, quantum-oscillating particles under laboratory-controlled conditions. The new experiments probe high-intensity neutrino beams produced by particle accelerators. The beams travel hundreds of miles through the Earth to underground detectors that measure changes in the composition of the neutrino beam.EPP also supports advances in accelerator physics and detectors at acceleratorsand new methods of utilizing distributed computing in support of collaborative research, for example, grid development, both nationally and internationally. The program also engages K-12 educators, who participate in experiments with University Scientists and Students. |
| Link to Additional Information: | NSF Program Desccription 11-1221 |
| Grantor Contact Information: | If you have difficulty accessing the full announcement electronically, please contact:
NSF grants.gov support
grantsgovsupport@nsf.gov Email:grantsgovsupport@nsf.gov |
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