Sciences

A recent study from Hebrew University has achieved a significant advancement in integrating single-photon sources onto tiny chips at room temperature, representing an important step forward in quantum photonics with potential for applications such as quantum computing and cryptography. This achievement signifies a milestone in the development of practical quantum photonic devices, heralding a promising future where quantum technologies, encompassing computing, communication, and sensing, can be fully realized.

A new study by the Hebrew University has unveiled a significant advancement in chaos theory, introducing a flux-based statistical theory that predicts chaotic outcomes in non-hierarchical three-body systems. This breakthrough holds practical implications for fields such as celestial mechanics, astrophysics, and molecular dynamics, offering a more efficient and precise approach to analyzing complex systems and enabling deeper exploration and understanding of chaotic phenomena.

A new study at the Hebrew University of Jerusalem unveils critical insights into bacterial fruit blotch, a severe disease affecting melon and watermelon crops. The research focuses on the role of the effector AopW1, shedding light on its significance in host adaptation and providing new perspectives on the HopW1 family of bacterial effectors.

Researchers from the National Natural History Collections at the Hebrew University of Jerusalem and the Department of Evolutionary and Environmental Biology at the University of Haifa documented the first-ever observation of phoresy of pseudoscorpions on a scorpion host. This unique behavior sheds light on the intricate relationships of myrmecophile arachnids, particularly between the pseudoscorpion genus Nannowithius and the scorpion species Birulatus israelensis.

In a new study, a group of researchers, led by Dr. Joshua Goldberg from the Hebrew University, describe a new kind of neurochemical wave in the brain. Their research, published in Nature Communications, unveils the existence of traveling waves of the neurochemical acetylcholine in the striatum, a region of the brain responsible for motivating actions and habitual behaviors.

Antibiotic resistance is a growing public health concern with global implications. Antibiotic-resistant infection affects over 2.8 million individuals each year in the United States alone, resulting in more than 35,000 annual deaths. New resistance mechanisms constantly emerge and spread globally, threatening our ability to treat common infectious diseases, such as pneumonia, tuberculosis, and sepsis.

An international team led by Professor Hagai Levine of Hebrew University of Jerusalem’s Hadassah Braun School of Public Health, with Prof. Shanna Swan at the Icahn School of Medicine, Mount Sinai, New York, along with researchers in Denmark, Brazil, Spain, Israel and the USA, published the first meta-analysis to demonstrate declining sperm counts among men from South and Central America, Asia and Africa.

This first of its kind partnership between Meta and an Israeli university marks a significant step to bring industry-leading Artificial Intelligence research from Hebrew University’s Rachel and Selim Benin School of Computer Science and Engineering to the AI marketplace. 

(Jerusalem, October 26, 2022)--Today, the Hebrew University of Jerusalem (HU)’s School of Engineering and Computer Science and Yissum, HU’s technology transfer company announced a new research partnership with Meta AI.

The Technion and the Hebrew University of Jerusalem have signed a partnership agreement with IBM Research to advance artificial intelligence capabilities and applications in Israel. The collaboration was announced this week at a conference held by IBM in Tel Aviv to mark 50 years since the establishment of the IBM Research Lab in Israel.

Whether in photosynthesis or in a photovoltaic system: If you want to use light efficiently, you have to absorb it as completely as possible. However, this is difficult if the absorption is to take place in a thin layer of material that normally lets a large part of the light pass through.