Member Since 2016
Valere Lambert
Associate Researcher, University of California Santa Cruz
Professional Experience
University of California Santa Cruz
Associate Researcher
2023 - Present
University of California Santa Cruz
Postdoctoral Fellow
2021 - 2023
California Institute of Technology
Doctoral Candidate
2016 - 2021
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Education
Organization Not Listed
Doctorate
2021
Honors & Awards
Keiiti Aki Early Career Award
Received December 2023
Citation
Valère
Lambert is the rare breed of theorist with a deep understanding of the
important questions who can craft both analytical and numerical approaches.
Valère
has already produced several fundamental theoretical papers in his short career
thus far. His 2021 Nature paper
revisits one of the oldest, and most fundamental, problems of earthquake
physics with fresh eyes. The problem of the absolute stress on faults is
central to earthquake physics. Are earthquakes operating at near-lithostatic
stresses, as one might expect
from the overburden, or are they operating at low stresses, as one might infer from the lack
of conspicuous thermal anomalies? Many have speculated based on cartoons that
the radiated energy should be diagnostic of the difference; however,
no one had shown it. Valère showed
it and pointed out fairly clearly
that large, subduction zone earthquakes are likely operating at low stresses. To make the argument,
he also pulled
in an important thread of rupture behavior and showed
that the subduction earthquakes are likely crack-like, that is, slip over the
whole fault at once, rather than pulse-like. It is a good paper in part because
of virtuosic mastery of the multiple threads of thinking on the problem. This
is one of Valère’s trademarks. He has an overview of the field seldom seen at
any career stage, let alone as early he is now.
His
other forays into earthquake physics
include poroelasticity, and viscous flow modeling in addition to fracture mechanics. These are all technically challenging subjects that he has
both mastered and made real contributions to at a surprisingly early career
stage. His accomplishments are
already impressive, and he richly deserves this honor.
—Emily
Brodsky, University of California, Santa Cruz
Response
I am very honored to receive the Keiiti Aki
Early Career Award. I thank the AGU Seismology
section for this recognition, which truly reflects the insights and support
from many mentors, collaborators, and friends. I particularly want to
acknowledge Nadia Lapusta, Emily Brodsky,
Jean-Philippe Avouac, Mark Simons, Zhongwen
Zhan, Victor Tsai, Hiroo Kanamori, Tom Heaton, Dan Faulkner, Zach Ross, Nick Beeler, and Jeff McGuire
for their tremendous support
and inspiration. I want to express my gratitude to the seismology and broader geology, geophysics, and mechanics communities, and the numerous
members with whom I have had the privilege
to interact and learn from. Earthquake science, as with
many areas of geoscience, is full of fascinating and challenging interdisciplinary problems, and it has been an enriching experience to gain perspectives
from an array of vantage points. As a theorist, it is inspiring
to see the work and creativity involved
in procuring the observations that illuminate different
aspects of these puzzles.
I look forward to the new
insights to come from the increasing volume and richness of field and
laboratory observations and new tools for analyzing such high-dimensional data.
—Valère Lambert, University
of California, Santa
Cruz
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Outstanding Reviewer Award - JGR: Solid Earth
Received December 2022
Current Roles
Member
Seismology Keiiti Aki Young Scientist Award Committee
Publications
Slow Slip as an Indicator of Fault Stress Criticality
Fault regions inferred to be slowly slipping are interpreted to accommodate much of tectonic plate motion aseismically and potentially serve as bar...
June 10, 2024
On the Choice and Implications of Rheologies That Maintain K...
September 25, 2022
Resolving Simulated Sequences of Earthquakes and Fault Inter...
October 25, 2021
Scale Dependence of Earthquake Rupture Prestress in Models W...
September 29, 2021
AGU Abstracts
Community Code Verification Exercises for Simulations of Earthquake Sequences and Aseismic Slip (SEAS): Effects from Dipping Faults and Full Elastodynamics to Fluids and Fault Friction Evolution
SLOW-TO-FAST EARTHQUAKES FROM SHALLOW TO DEEP: OBSERVATIONS, EXPERIMENTS, AND NUMERICAL MODELING IV POSTER
tectonophysics | 13 december 2023
Valere Lambert, Brittany A. Erickson, Junle Jiang,...
Numerical simulations of sequences of earthquakes and aseismic slip (SEAS) have rapidly progressed over recent decades to address fundamental problems...
View Abstract
Community Code Verification Exercises for Simulations of Earthquake Sequences and Aseismic Slip (SEAS): From 3D, Full Elastodynamics and Dipping Faults to Fluids and Fault Friction Evolution
COMPLEXITIES OF FAULT RUPTURE AND THEIR IMPLICATIONS FOR THE JOINT STUDIES OF EARTHQUAKE SOURCE PHYSICS AND GROUND MOTION IV POSTER
seismology | 13 december 2022
Valere Lambert, Junle Jiang, Brittany A. Erickson,...
Numerical simulations of sequences of earthquakes and aseismic slip (SEAS) have rapidly progressed over recent decades to address fundamental problems...
View Abstract
Community Code Verification Exercises for Simulations of Earthquake Sequences and Aseismic Slip (SEAS): 3D Effects, Fully Dynamic Ruptures, and Dipping Fault Geometries
STATE-OF-THE-ART OBSERVATIONS AND MODELING OF EARTHQUAKE SOURCE PROCESSES VI POSTER
seismology | 17 december 2021
Junle Jiang, Brittany A. Erickson, Valere Lambert,...
Numerical simulations of Sequences of Earthquakes and Aseismic Slip (SEAS) have rapidly progressed over recent decades to address important questions ...
View Abstract
Volunteer Experience
2024 - 2026
Member
Seismology Keiiti Aki Young Scientist Award Committee
Check out all of Valere Lambert’s AGU Research!
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