Quantum Dot Photoconductors: Mid-Infrared Detection Breakthrough!

Discover the groundbreaking advancements in infrared light detection! 🌐🔬 In this video, we explore the inherent limitations of silicon in detecting infrared light beyond 1,100 nanometers and how integrating silicon with quantum dots creates a revolutionary photovoltage triode. Learn about the significant advantages of this novel device, which extends silicon's detection range, opening new possibilities in imaging, sensing, and communication technologies. Join us as we delve into the science behind these innovations and their potential to transform various industries. #InfraredDetection #SiliconLimitations #QuantumDots #PhotovoltageTriode #ImagingTechnology #Sensing #CommunicationTech #InnovationsInScience #ScienceFather #scifax #ScienceDad #STEMDad #SciParent #ScienceFamily #ScienceParenting #ScienceInParenthood #DadOfScience #proffessor #students #ResearchScholar #awardwinner #scientist #PhD #acedemic If you enjoyed the video, please like and share it with others interested in cutting-edge technology! More Details: Title: International Research Awards on High Energy Physics and Computational Science by ScienceFather. Website: physics.sciencefather.com Visit Our Award Nomination : https://x-i.me/hepnom Contact us : Physicsinquiry@sciencefather.com

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Physicists observe a new form of magnetism for the first time

MIT physicists have demonstrated a new form of magnetism that could one day be harnessed to build faster, denser, and less power-hungry " spintronic " memory chips. The new magnetic state is a mash-up of two main forms of magnetism: the ferromagnetism of everyday fridge magnets and compass needles, and antiferromagnetism, in which materials have magnetic properties at the microscale yet are not macroscopically magnetized. Now, the MIT team has demonstrated a new form of magnetism , termed "p-wave magnetism." Physicists have long observed that electrons of atoms in regular ferromagnets share the same orientation of "spin," like so many tiny compasses pointing in the same direction. This spin alignment generates a magnetic field, which gives a ferromagnet its inherent magnetism. Electrons belonging to magnetic atoms in an antiferromagnet also have spin, although these spins alternate, with electrons orbiting neighboring atoms aligning their spins antiparalle...

new research in qauntum physics

VISIT:https: //hep-conferences.sciencefather.com/ N ew research in qauntum physics. Alphabet Has a Second, Secretive Quantum Computing Team Recent research in quantum physics includes the development of quantum computers, which are expected to be much more powerful than conventional computers and could revolutionize many aspects of technology, such as artificial intelligence and cryptography. Other research includes the development of quantum sensors for a variety of applications, including medical diagnostics, and the study of quantum entanglement and its potential to enable quantum computing and secure communication. Additionally, research is being conducted into the applications of quantum mechanics in materials science, such as unde...

Freezing light? Italian scientists froze fastest thing in universe, here’s how

In a rare occurrence, physics made it possible to control the fastest travelling element - light. Italian scientists have managed to freeze the light, as per reports. A recent study published in a British weekly journal reportedly revealed that light can exhibit ‘ supersolid behavior ’ a unique state of matter that flows without friction while retaining a solid-like structure. The research, led by Antonio Gianfate from CNR Nanotec and Davide Nigro from the University of Pavia, marks a significant step in understanding supersolidity in light. The scientists described their findings as “just the beginning” of this exploration, as per reports. In what can be termed as ‘manipulating photons under controlled quantum conditions ’, the scientists demonstrated that light, too, can exhibit this behaviour. (A photon is a bundle of electromagnetic energy which is massless, and travel at the speed of light) How did scientists freeze light? As we know, freezing involves lowering a liquid’s tempera...

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