The Hebrew University Tops ERC Consolidator Grant Wins for 2023, Garnering NIS 47 Million

The Hebrew University Tops ERC Consolidator Grant Wins for 2023, Garnering NIS 47 Million
23rd November 2023 Moriah Aharon

On Thursday, 23th November 2023, the European Research Council (ERC) declared that six researchers from the Hebrew University secured grants at the Consolidator Grant level. These individual grants, ranging from one and a half to two million euros each, cumulatively amount to 11.5 million euros (47 million shekels). This achievement positions the Hebrew University at the forefront among Israeli research universities, boasting the highest number of winners in this category.

The recipients of the ERC grants from the Hebrew University include: Dr. Erez Zohar from the Rakah Institute of Physics, Prof. Yair Furstenberg, who chairs the Department of Talmud and Halacha, Prof. Oren Ram from the Institute of Life Sciences, Dr. Yonatan Anahory also from the Rakah Institute of Physics, Prof. Katrina Ligett from the School of Engineering and Computer Science and overseeing the Center for the Study of Rationality at the Hebrew University, along with Dr. Nicholas Stone, also from the Rakah Institute of Physics.

Dr. Erez Zohar, from the Racah Institute of Physics at the Hebrew University, is set to receive a grant for his research centered on quantum information theory within many-body physics. Quantum mechanics currently serves as the established framework for delineating the structure of matter and the interplay between its constituent parts. Quantum information theory delves into the classification, manipulation, and utilization of information within quantum systems. Over recent decades, this field has witnessed substantial exploration, particularly amid the accelerated strides toward quantum computing. Zohar’s research group focuses on quantum computers or simulators designed to emulate intricate multi-body systems—an avenue holding promise for tackling complex problems. In another key facet of their work, for which the grant is given, they utilize entanglement, an exclusive quantum phenomenon governing correlations among the various parts of a system. Zohar’s team employs tensor networks, a tool leveraging entanglement, to explore intricate many-body systems, extending their application into the realm of elementary particle physics.

Professor Yair Furstenberg, heading the Department of Talmud and Halacha at the Hebrew University, is slated to receive the grant for his research exploring the evolution of Jewish legal literature during the first centuries CE amidst Roman governance and in conjunction with other legal traditions. This project aims to elucidate how subject populations interfaced with the Roman Empire, reshaping their self-identity through the development of indigenous legal frameworks. The study’s objective is to compare divergent legal systems, examining their responses to imperial legal administration and how these cultures forged distinctive local identities. This research initiative will convene experts in Roman, Jewish, Egyptian, and Hellenistic law alongside scholars of the Roman Empire, fostering an examination of shared processes and unique adaptation strategies among diverse populations under Roman rule. Consequently, an integrated inquiry into Rabbinic law alongside its counterparts will deepen our understanding of the experience of local populations under Roman Empire as viewed from their own perspective.

Prof. Oren Ram from the Institute of Life Sciences at the Hebrew University will be awarded a grant for his pioneering research in developing advanced technological tools aimed at sequencing individual cancer cells. His primary focus lies in correlating the cellular state at both RNA and DNA levels with mutations, particularly those enabling select tumor cells to better withstand drug treatments. Enhancing the detection of rare mutations holds immense promise for early cancer diagnosis and personalized treatment strategies. Initially, this research will concentrate on lung cancer patients afflicted with brain metastases and those with glioblastoma, a severe form of brain cancer. Subsequent phases will extend this methodology to encompass various other cancer types. The process involves cultivating cancer cells from patients in laboratory settings and subjecting them to diverse clinically approved drug sets to identify cells displaying resistance. Employing cutting-edge methodologies, the team will then map these resistant cell populations to decipher the molecular mechanisms enabling them to evade treatment. Ultimately, this comprehensive approach aims to uncover potential vulnerabilities in these cancer cells during the early stages of the disease, thereby facilitating tailored treatment options for individual patients.

Dr. Yonatan Anahory of the Rakeh Institute of Physics at the Hebrew University will be granted funding to develop a microchip designed to manipulate quantum entities known as “vortices” present in superconducting materials under magnetic fields. This breakthrough holds immense promise, serving as a cornerstone for encrypted communication and future computational advancements. The existing components employed to encode quantum states, forming the basis of this technology, lack the necessary stability, leading to errors induced by system noise. These errors impede accurate computational processes, hindering the practical application of quantum science in technology. Dr. Anahory, along with a team of researchers led by Prof. Hadar Steinberg from the Faculty of Mathematics and Natural Sciences at the Hebrew University, aims to tackle this challenge. Their innovative solution revolves around harnessing quantum vortices within superconducting materials. In a groundbreaking achievement, they’ve successfully engineered a microchip capable of precisely controlling the movement of these vortices, allowing for their accurate positioning and manipulation at will. This groundbreaking capability is anticipated to revolutionize the reliability and speed of computational operations, marking a pivotal advancement in quantum technology.

Prof. Katrina Ligett, Professor of Computer Science and Director of the Federmann Center for the Study of Rationality at the Hebrew University, will be granted funding for her pivotal research addressing challenges arising from algorithmic personalization–the practice of providing individuals with personalized opportunities, information, or experiences, on the basis of their personal data and on patterns learned from others’ data. Algorithmic personalization carries risks related to privacy, autonomy, discrimination, social fragmentation, and more. Despite the urgency of the algorithmic personalization problem, the mathematical toolkit for studying and auditing for problematic algorithmic personalization remains extremely limited, particularly if we wish to do so in a manner that provides formal privacy guarantees. The goal of Prof. Ligett’s project is to tackle this important problem head-on by establishing the mathematical foundations needed to study algorithmic personalization and to collectively audit personalization systems while guaranteeing privacy to participants.

Dr. Nicholas Stone, affiliated with the Rakeh Institute of Physics at the Hebrew University, is set to receive a grant for his groundbreaking research on tidal disruption events, rare explosions that offer insight into supermassive black hole properties such as mass and spin. Presently, there exists no consensus regarding the power source fuelling the flares during these events. Dr. Stone’s research aims to resolve this mystery, demonstrating that the enigma of tidal disruption events can indeed be unravelled. Through meticulous first-principles simulations encompassing the evolution and emission of stellar debris during these events, his work aims to provide a roadmap to measure the parameters associated with black holes. This project holds the promise of overcoming the limitations inherent in other techniques used to measure black holes, thereby placing critical constraints on the formation and growth history of supermassive black holes.

Disclaimer: In these challenging times of war and crisis, Hebrew University of Jerusalem is resolute in its dedication to advancing research and education. We stand in full support of the brave individuals on the frontlines, safeguarding our nation and the well-being of all Israelis, and extend our deepest gratitude and unwavering solidarity to our community and fellow citizens. Together, we shall prevail against the challenges that confront us, and our shared commitment to the well-being of all Israelis and the pursuit of knowledge remains resolute.

The Hebrew University of Jerusalem is Israel’s premier academic and research institution. With over 25,000 students from 90 countries, it is a hub for advancing scientific knowledge and holds a significant role in Israel’s civilian scientific research output, accounting for nearly 40% of it and has registered over 11,000 patents. The university’s faculty and alumni have earned eight Nobel Prizes and a Fields Medal, underscoring their contributions to ground-breaking discoveries. In the global arena, the Hebrew University ranks 86th according to the Shanghai Ranking. To learn more about the university’s academic programs, research initiatives, and achievements, visit the official website at