Voices from DARPA

As a global leader in innovation, DARPA starts an average of 50 new programs each year. These programs span a variety of technical disciplines to develop breakthrough technologies for national security, all of which have the potential to raise ethical, legal, and societal implication – or, ELSI – considerations.Taking time to consider ELSI’s role in a program can contribute to the responsible development of emerging technologies by guiding innovation, maximizing the potential application space, and facilitating dialogue with future end-users, and the public, to ensure diverse perspectives and implications are considered. It can improve research by fostering conversations that identify unknowns, anticipate consequences, and make design decisions to maximize benefits and opportunities and minimize risks and harms.In this episode of Voices from DARPA, we’ll hear from DARPA Director, Dr. Stefanie Tompkins, to explain the agency's perspective on those implications, as well as Dr. Bart Russell, deputy director of the Defense Sciences Office, on what it would mean to incorporate ELSI across the agency more formally. Finally, Dr. Rebecca Crootof, DARPA’s inaugural ELSI Visiting Scholar, will discuss her journey to the agency and her approach to developing a process to ensure that ELSI can inform — and even improve —DARPA programs.That sounds like a lot of responsibility, influence, and potential impact – for some, maybe, too good to be true?Ethical, Legal, and Societal Implications of Emerging Technologies at DARPA DARPA currently is seeking applicants for the 2025 ELSI Visiting Scholar. The deadline to apply is June 3, 2024.Origin of the term ELSI: Three decades of ethical, legal, and social implications research: Looking back to chart a path forwardThe piece references a class from Dr. Oona A. Hathaway

Good ideas can come from anywhere, but what is the best way to find them, or help them find you?  In 2022, DARPA hit the road in pursuit of the answer. Comprising six regional events, DARPA Forward took the agency across the country to engage untapped talent and strengthen the nationwide innovation ecosystem. The event series offered a powerful lesson in breaking down barriers of entry in pursuit of national security breakthroughs.  To sustain this momentum, DARPA launched DARPAConnect, an initiative that aims to further broaden the agency’s reach and foster greater collaboration with underrepresented, diverse, and nontraditional institutions new to the national security space.  In this episode of Voices from DARPA, we’re taking a deep dive on DARPAConnect, talking with several of those involved in the initiative to get a sense of how it all works. We’ll explore its goals, its offerings, and what success looks like at DARPA, home to some of the biggest – and riskiest – bets on U.S. technological innovation.  DARPAConnect website: https://www.darpaconnect.us/home  

In this episode we hear from quantum physicist Dr. Mukund Vengalattore, a program manager in DARPA’s Defense Sciences Office, who oversees a portfolio of fundamental research programs aimed at unlocking new quantum insights and overcoming challenges to enable revolutionary capabilities for defense. These include harnessing atoms and superconducting structures for novel sensing applications (imagine tiny, super-sensitive antennas, infrared detectors or gyroscopes that vastly outperform much larger antennas, IR cameras, and gyroscopes of today); developing better quantum bits (qubits) for quantum computing (including using photons to encode information in novel ways); enabling field-deployable, tactical-grade mobile atomic clocks for our troops; and discovering new quantum materials for applications ranging from quantum computing to biomedical imaging. We’re also joined by Dr. Mikhail Lukin, professor of physics at Harvard University, who led a team on Vengalattore’s Optimization with Noisy Intermediate-Scale Quantum devices (ONISQ) program that made a major quantum breakthrough published in Nature recently. Lukin’s team exploited characteristics of Rydberg neutral atoms tocreate logical qubits and used them to demonstrate the first-ever quantum circuit, a key step to advancing novel quantum computing architectures (Vengalattore provides a primer on the Rydberg atomic state). You’ll also hear about “optical tweezers” – which use laser beams that can be controlled to precisely grab and move around individual qubits without destroying their quantumness — and how they helped enable the breakthrough. To read more about the ONISQ logical qubit breakthrough visit: https://www.darpa.mil/news-events/2023-12-06 Normally, we’d recommend you jump right into the episode, but this time, a primer may be helpful. We suggest starting with our recent Quantum Mechanic episode before you take a deep technical dive to the subatomic level for a fascinating window on the vast frontiers of quantum exploration… and potential applications in the real world. 

We usually think of materials based on our experience in the natural world. For example, something that’s light is usually fragile (like a feather) or something heavy is usually strong (like a brick). But what if we could engineer a material that had completely new characteristics that defied properties found in nature? Engineered materials, also known as metamaterials, allow us to do just that. DARPA Program Manager Dr. Rohith Chandrasekar in DARPA’s Defense Sciences Office has led programs designing metamaterials that revolutionize how light interacts with matter. His programs are enabling new concepts for improving Warfighter effectiveness and health on the battlefield with new optics and materials. In this episode, Dr. Chandrasekar discusses several of these programs including Enhanced Night Vision in Eyeglass Form (ENVision), which has developed metamaterials to replace heavy and bulky binocular-like night-vision goggles lenses with lightweight lenses providing more infrared information and near eyesight field of view, in a form factor like a pair of glasses. He also discusses his Coded Visibility program, which focused on developing novel obscurants (aka smoke) used on the battlefield to provide friendly forces with visibility of the environment, while simultaneously hiding them from detection by an adversary. The catch, however, is that the smoke particles needed to be safe to breathe and potentially even tunable using active sources. Finally, he talks about the Accelerating discovery of Tunable Optical Materials (ATOM) program. This effort seeks to identify new materials whose properties could be rapidly changed to enable different functions. Imagine a massive telephoto camera on the sideline of a sporting event replaced with a planar imaging system that could zoom, or a thin filter that can rapidly collect critical data across infrared bands for spectroscopy, all with no moving parts. Sounds like magic, but it’s not! Enjoy listening to DARPA’s Metamaterial Visionary.

Established in 2006, the Young Faculty Award (YFA) program aims to identify and engage rising academics in early-career research positions - particularly those without prior DARPA funding - and expose them to Department of Defense (DOD) needs and DARPA's mission to create and prevent technological surprise. The YFA program provides high-impact funding toresearchers at U.S. institutions early in their careers to advance innovative research enabling transformative DOD capabilities. The long-term goal of the YFA program is to build a pipeline for the next generation of academic scientists, engineers, and mathematicians who will focus a significant portion of their career on DOD and national security issues.In this episode you'll hear from Dr. Rohith Chandrasekar, who oversees DARPA's YFA program, as well as from DARPA Program Managers Dr. Chris Bettinger and Dr. Sunil Bhave, who reflect on their experience as YFA awardees early in their academic careers and the opportunities it has afforded them.DARPA recently published the 2024 YFA Research Announcement that features almost two dozen new technical topics and an additional open topic covering six thrust areas specific to DARPA's Defense Sciences Office (DSO). To view the full 2024 YFA Research Announcement visit SAM.gov: https://sam.gov/opp/f2bf469a50e7433fa758f0125831754b/view or Grants.gov: https://www.grants.gov/search-results-detail/350899. Executive summaries, which are encouraged, are due by Dec. 13, 2023, 4:00 p.m. ET. Full proposals are due Feb. 22, 2024, 4 p.m. ET.

Ahead of the AI Cyber Challenge (AIxCC) Open Track registration period, which begins later this year, this episode of Voices from DARPA features Perri Adams, DARPA’s program manager for the competition. Over the next two years, AIxCC will challenge teams to develop AI-driven systems to automatically find and correctly fix the critical code that underpins daily life. Adams shares the backstory for the AIxCC, discusses who she wants to compete (and why), and what’s at stake for cybersecurity.  Adams is joined by AIxCC collaborators from the Open Source Security Foundation (OpenSSF), a project of the Linux Foundation, and OpenAI. OpenSSF’s general manager Omkhar Arasratnam and OpenAI’s head of security Matt Knight discuss their roles in the challenge and impart advice to potential competitors. For information on how to register to compete in the AI Cyber Challenge, visit AICyberChallenge.com.

Supply chain disruptions stemming from the COVID-19 pandemic, among other issues, shined a bright light on the global reliance on microchips. The nationwide recognition underscored the need to strengthen the domestic microelectronics industry, including on-shore fabrication and next-generation research, development, and capabilities.Back in 2017, already recognizing that the microelectronics demand trajectory was straining both commercial and defense developments, DARPA launched the Electronics Resurgence Initiative (ERI) to address an increasing reliance on advanced electronics, exploding complexity of microsystems, offshore movement of advanced capabilities, and the emergence of hardware security threats. In 2022, the agency kicked off ERI 2.0, expanding the original effort to include reinvention of domestic microelectronics manufacturing.DARPA’s 2023 ERI Summit, held Aug. 22-24, in Seattle, brought together more than 1,300 participants converged to discuss the challenges on the horizon. The conference spanned three jam-packed days of presentations, workshops, panel discussions, and networking.In this episode of Voices from DARPA, we've pulled from the more than 10 hours of presentations from leading voices across government, industry, and academia for a primer on the Summit's prevailing theme: what it means to redefine the future of microelectronics manufacturing.For a deeper dive on ERI 2.0 and the ERI Summit, visit:ERI Summit playlist – DARPAtv on YouTubeDARPA’s Microsystems Technology OfficeElectronics Resurgence Initiative 2.0ERI Summit

In popular culture, quantum is a descriptive term often added to various technical topics and projects to make them sound cool. But what is quantum mechanics, really, and how do we know whether quantum technologies will transform computing, communications, sensing, and a host of other fields? To find answers, join us for a new episode of the Voices from DARPA podcast series, where we hear from Dr. Joe Altepeter, a quantum physicist in DARPA’s Defense Sciences Office. Altepeter helps clarify what for most of us is a complicated subject, providing a basic understanding of quantum and describing his two DARPA programs focused on quantum computing. The first program, called Quantum Benchmarking, aims to estimate the long-term utility of quantum computers by creating new benchmarks, or yardsticks, that quantitatively measure how useful a quantum computer would be at solving problems we care about. The second related program, Underexplored Systems for Utility-Scale Quantum Computing (US2QC), seeks to determine if an underexplored approach to quantum computing is capable of achieving utility-scale operation (i.e., its computational value exceeds its cost) much faster than conventional predictions.Buckle up and tune in for a fast-paced tutorial from DARPA’s quantum mechanic!·  Dr. Joe Altepeter·  Quantum Benchmarking·  Underexplored Systems for Utility-Scale Quantum Computing (US2QC)

There are many ideas in the world, but truly good ones are few and far between – especially when it comes to breakthrough technologies that can change the course of history. Surfacing these types of ideas calls for a constant infusion of fresh perspectives and imagination.That’s why DARPA created the DARPA Innovation Fellowship, a two-year position for early career scientists and engineers. Fellows push the limits of existing technology by exploring new ideas for answering high-risk, high-reward “what if?” questions in the realm of national security.In this episode of the Voices from DARPA podcast series, we hear from Dr. Jinendra Ranka, director of DARPA’s Defense Sciences Office (DSO) – which oversees the Innovation Fellowship Program – about how the program offers unique opportunities for Fellows to make connections, demonstrate what’s possible and take risks. We also speak with four Fellows from the program’s first cohort – Dr. Rebecca Chmiel, Lieutenant Krishnan (Krish) Rajagopalan, Dr. Allegra A. Beal Cohen and Dr. Alex Place – for their perspectives on what it takes to develop high-impact, exploratory technology efforts for the Department of Defense.Current DARPA Innovation FellowsAdvanced Research Concepts

Generative artificial intelligence has captured the world’s attention after recent advances in the commercial sector. Its ability to create deepfakes, or highly realistic multimedia, has turned a once highly specialized skill into something as easy as clicking a button. As a result, the threat of manipulated media –audio, images, video, and text – has increased while social media provides a ripe environment for viral content sharing. Though, not all media manipulations have the same real-world impact. In this episode of Voices from DARPA, Dr. Wil Corvey, program manager for DARPA’s Semantic Forensics (SemaFor), discusses how the program goes beyond detection to delve deeper into understanding the intent behind manipulated media and how their team is creating tools available for today’s analysts. They are joined by SemaFor researchers Arslan Basharat, assistant director of Computer Vision at Kitware Inc. and Luisa Verdoliva, professor at the University of Naples in Italy.

Imagine you are going to space. There is a long list of items and supplies you definitely will need, but there is an even longer list of things you might need, depending on how your mission progresses. This includes known unknowns like fuel for unplanned maneuvering, replacement parts or tools, and a wide range of other products that could be useful, but may not be utilized. The current paradigm is to pack everything you might possibly need, but this approach is complex and logistically burdensome.  Imagine instead that you pack only fermentation equipment, feedstocks, and a freezer full of microbes that each convert the feedstock into a different useful molecule, material, or product so you have everything you might need and can produce it on demand.  Or what if you could enable a new paradigm where future space structures – that are much too large to launch on a rocket – are built off-Earth using materials and designs optimized for the space environment?This Voices from DARPA episode features discussions with Dr. Andy Detor, program manager in DARPA’s Defense Sciences Office, as well as Dr. Anne Cheever, program manager in the Biological Technologies Office. Detor runs the Novel Orbital Moon Manufacturing, Materials, and Mass Efficient Design, or NOM4D program. Cheever heads up the Biomanufacturing: Survival, Utility, and Reliability beyond Earth, or B-SURE, program. While neither program is conducting manufacturing in space, both are supporting proof of concept studies to determine whether it might be feasible in the future.

This episode of the Voices from DARPA podcast series explores the possibility of an “energy web” that, much like the World Wide Web easily and quickly spreads information, could instantly distribute energy from remote, currently untapped sources. DARPA Program Manager Col Paul Calhoun describes his bold POWER program, aimed at leveraging power beaming for near-instantaneous energy transport through a multi-path network. The project team plans to demonstrate long-distance wireless power transmission that can power an aircraft. Such a system might also one day readily distribute abundant, far-flung wave or solar generated power to places in need. “If we can get to a world where we are no longer tying energy production to carbon…it allows us to unlock production without some of the negative impacts,” says Calhoun.

At a time when the race to create the best artificial intelligence-enabled technology is at its fiercest, experts at DARPA say we need to recalibrate the direction of research in the field.Within DARPA’s Information Innovation Office, one of the research thrusts focuses on proficient artificial intelligence (AI), which the office defines as how to build AI-enabled systems that we could trust with our lives and not be foolish to do so.This episode of Voices from DARPA features an excerpt from a recent presentation by Dr. Kathleen Fisher, the director of the Information Innovation Office, which is leading DARPA’s initiative to explore future directions of AI for national security, called AI Forward.Dr. Fisher delves into the topic of trustworthy AI for adversarial environments and what it will take to create technology that is more than a tool, but rather function as a true partner.To access the full presentation, visit our YouTube page. DARPA will also accept applications for its AI Forward Workshops through March 20, 2023. To learn how you can apply, visit: https://www.darpa.mil/work-with-us/ai-forward

If it seems like microchips have been a consistent conversation topic lately, it’s for good reason. Supply chain disruptions caused by the COVID-19 pandemic and other factors created a new level of awareness about microelectronics. However, the research and development that advance these increasingly powerful technologies goes back decades, with DARPA teaming up to play a key part.This episode of Voices from DARPA examines the journey and impact of one collaborative effort that DARPA’s been part of since the late 1990s. The latest program iteration, the Joint University Microelectronics Program 2.0 (JUMP 2.0), recently kicked off with an expanded mission.This episode features Dr. Dev Palmer, a longtime program participant now overseeing DARPA’s JUMP 2.0 efforts as the deputy director of DARPA’s Microsystems Technology Office; Dr. Adam Knapp, the JUMP 2.0 program manager at longtime partner institution the Semiconductor Research Corporation; and Dr. Tajana Simunic Rosing, a program performer who has been involved in every iteration of what is now JUMP 2.0.All three of these experts bring rich, diverse perspectives to an effort that is critical to the future – and that serves as a bedrock for broader initiatives to strengthen U.S. leadership in microelectronics. as they share in this episode, all three are focused on success via ambitious collaboration.Find out even more about JUMP 2.0 and DARPA’s broader Electronics Resurgence Initiative (ERI) – and be part of the dialogue – this summer at the ERI Summit.

For this episode of the Voices from DARPA podcast, we will be hearing from CDR Jean-Paul Chretien about the newly-launched DARPA Triage Challenge. Previous DARPA challenges have contributed to the self-driving car evolution, responsive space launch, and robotics for disaster response and recovery, and we expect equally transformational results from this one.The DARPA Triage Challenge will use a series of challenge events to spur development of novel physiological features for medical triage. The effort aims to drive breakthrough innovations in identification of “signatures” of injury that will help medical responders perform scalable, timely, and accurate triage. Of particular interest are mass casualty incidents, in both civilian and military settings, when medical resources are limited relative to the need.YouTube: https://www.youtube.com/watch?v=UrezJNTj90A iTunes: https://podcasts.apple.com/us/podcast/voices-from-darpa/id1163190520