GootLoader malware evolves with new versions, using SEO poisoning and disguised payloads to compromise systems.
Discover Zergeca, a new sophisticated botnet capable of DDoS attacks and more. Learn about its features, targets, and potential impact on cybersecurit.
Brazil bans Meta from using personal data for AI training, citing privacy concerns and risks to children. Meta has 5 days to comply or face fines.
Europol is proposing solutions to avoid challenges posed by privacy-enhancing technologies in Home Routing that hinder law enforcement’s ability to intercept communications during criminal investigations.
The agency has previously highlighted in its Digital Challenges series that law enforcement problem of end-to-end encryption on communication platforms is a hurdle when it comes to collecting admissible evidence.
Stern, R.J., Gerya, T.V. Sci Rep 14, 8,552 (2024). https://doi.org/10.1038/s41598-024-54700-x.
Researchers have developed a breakthrough method for quantum information transmission using light particles called qudits, which utilize the spatial mode and polarization properties to enable faster, more secure data transfer and increased resistance to errors.
This technology could greatly enhance the capabilities of a quantum internet, providing long-distance, secure communication, and leading to the development of powerful quantum computers and unbreakable encryption.
Scientists have made a significant breakthrough in creating a new method for transmitting quantum information using particles of light called qudits. These qudits promise a future quantum internet that is both secure and powerful.
Magnetic stimulation therapy could aid patients who don’t respond to antidepressants. Scientists from the University of Helsinki and Stanford University are refining techniques that may lead to personalized treatments in the future.
Not every patient with depression benefits from medication. Recent research highlights potential improvements in an alternative approach, transcranial magnetic stimulation (TMS), for treating depression. TMS is distinct from electroconvulsive therapy (ECT), another treatment option for depression.
Researchers from the University of Helsinki and Stanford University investigated which factors in targeting TMS influence the brain’s electrical responses. They examined the behavior of a specific electrophysiological marker. This marker could potentially be used as a biomarker in the future to measure the efficacy of TMS treatment and thus help target and tailor the therapy.
New research introduces a non-thermal method for magnetization using circularly polarized XUV light, which induces significant magnetization changes through the inverse Faraday effect, potentially transforming ultrafast data storage and spintronics.
Intense laser pulses can be used to manipulate or even switch the magnetization orientation of a material on extremely short time scales. Typically, such effects are thermally induced, as the absorbed laser energy heats up the material very rapidly, causing an ultrafast perturbation of the magnetic order.
Scientists from the Max Born Institute (MBI), in collaboration with an international team of researchers, have now demonstrated an effective non-thermal approach of generating large magnetization changes. By exposing a ferrimagnetic iron-gadolinium alloy to circularly polarized pulses of extreme ultraviolet (XUV) radiation, they could reveal a particularly strong magnetic response depending on the handedness of the incoming XUV light burst (left-or right-circular polarization).
A freeform multimaterial assembly process (FMAP) is demonstrated, synchronizing laser induction with 3D printing for seamlessly integrating multimaterials into 3D objects, enabling streamlined, flexible, and precise electronic device fabrication.