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Swarthmore College

Swarthmore, PA

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$27,977,570
Total funding
108
Grants

Funding over time

peak $2.3M · FY200525
$2.5M$1.9M$1.3M$625K$0
'05
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25

Funding mix

By agency

NSF$14,221,557 · 71
NIH$9,605,831 · 28
DOE$3,611,170 · 6
NASA$439,282 · 2
AHRQ$99,730 · 1

By mechanism

$18,272,009 · 79
R15$7,463,938 · 21
R21$1,108,817 · 3
G11$453,492 · 1
R01$280,103 · 1
R03$239,227 · 2

Investigators at Swarthmore College

InvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Exposure= the full size of every grant they're on ($1M each).

Largest grants

FRC STABILIZATION BY INTERNAL TOROIDAL MAGNETIC FIELD$1,172,747
· FY2008 · Department of Energy
VIBRATIONAL DYNAMICS AND RELAXATIONS IN GLASS-FORMING LIQUIDS$874,633
· FY2023 · Department of Energy
Collaborative Research: RUI: Comparative analysis of endocytic trafficking during cell division$862,000
· FY2021 · BIO
RUI: The role of mitotic trafficking in cell fate specification$814,000
· FY2017 · BIO
CAREER: Emergence of Population Diversity from Stem Cell Decision Making in Asexual Planarians$804,226
· FY2018 · MPS
NOVEL CT'S EQUILIBRIUM, STABILITY, AND DYNAMICS$795,747
· FY2010 · Department of Energy
DLI-2: The JOMA Applet Project: Applet Support for the Undergraduate Mathematics Curriculum$701,948
· FY2000 · CSE
Collaborative Research: RUI: Evolvability of Social Networks$620,000
· FY2014 · BIO
RUI: Investigating Non-Linear Tissue Deformations Using Hydra Mouth Opening as a Quantitative in Vivo Model$618,549
· FY2021 · MPS
PLASMA ACCELERATOR ON THE SWARTHMORE SPHEROMAK EXPERIMENT$597,739
· FY2017 · Department of Energy
Nuclear probes of conductivity in Na-ion battery materials$548,497
· FY2024 · MPS
Collaborative Research: IOS:RUI: Hydrodynamic consequences of spines on zooplankton: Functional morphology of horns and tails on barnacle nauplii$527,423
· FY2022 · BIO
Developing Dynamic and Interactive Materials to Teach Computing Systems Concepts to All Students$485,522
· FY2022 · EDU
RUI: Hydra Whole-Body Inversion as an in Vivo Model to Study Extreme Epithelial Deformations$443,665
· FY2025 · MPS
Signal-dependent regulation of cardiac progenitor proliferation$439,065
R15 · FY2025 · HL
Functional Analysis of Locus-Specific Pericentric Satellite Expression$437,442
R15 · FY2024 · GM
AFTER CHARACTERIZING THE EPOCHS WHICH ARE PROBED MOST PRECISELY BY CURRENT AND FUTURE PLANNED MISSIONS WE WILL HAVE ESSENTIAL INFORMATION TO THEN FOCUS OUR ATTENTION ON OBSERVATIONAL CONSTRAINTS TO THE NEUTRINO SECTOR. IN ADDITION TO ALTERING THE EXPANSION RATE MODIFICATIONS TO THE NEUTRINO SECTOR NATURALLY CHANGE THE EVOLUTION OF INHOMOGENEITIES IN THE UNIVERSE. STUDYING PROBES OF NEUTRINO PHYSICS IS PARTICULARLY INTERESTING IN LIGHT OF RECENT MEASUREMENTS OF THE HUBBLE CONSTANT FROM THE CMB AND TYPE IA SUPERNOVAE. THE INFERRED HUBBLE PARAMETER FROM THESE TWO METHODS ARE IN TENSION AND COULD BE A HINT OF AN ADDITIONAL NEUTRINO SPECIES WITH NONSTANDARD INTERACTIONS. THIS DEVELOPMENT IS PARTICULARLY EXCITING IN LIGHT OF THE EXPERIMENTAL DETECTION OF NEUTRINO MASS NEUTRINO BEAMLINE HINTS OF A NEW SPECIES AND THEORETICAL MODELS FOR THE NEUTRINO MASS WHICH OFTEN REQUIRE THE EXISTENCE OF A NEW LIGHT PARTICLE WITH INTERACTIONS BEYOND THE STANDARD MODEL. WE PROPOSE TO DEVELOP THE FRAMEWORK TO TEST THESE MODELS USING UPCOMING COSMOLOGICAL DATA DEVELOPING THE RELEVANT FLUID AND BOLTZMANN FORMALISMS IMPLEMENTING IT COMPUTATIONALLY CONDUCTING FORECASTS AND TESTING MODELS WITH EXISTING MEASUREMENTS.$436,902
· FY2020 · National Aeronautics and Space Administration
Deciphering the structure and dynamics of non-canonical DNA implicated in cancer$431,986
R15 · FY2020 · CA
Chordate heart gene networks$420,845
R15 · FY2014 · HD
Deciphering the structure and dynamics of quadruplex DNA and DNA-ligand complexes$410,501
R15 · FY2017 · CA