Quantum Machines ’s Post

Huge thanks to Daria Kowsari for his insightful speech at the incredible Online Seminar: "Deterministic Benchmarking of Quantum Gates"! The seminar delved into cutting-edge research from Prof. Levenson-Falk and Prof. Lidar Labs at University of Southern California, introducing deterministic benchmarking, a novel approach to capture both coherent and incoherent errors in quantum gates. This method offers crucial insights into mitigating errors and paves the way for implementing error-correcting algorithms. As someone working on RB simulation, it was an enlightening experience that further fueled my excitement to contribute to advancing quantum error correction. 🙌🔬 Here is the article to read: https://lnkd.in/dtsSPm6p

🎥 Have you watched the on-demand seminar "Deterministic Benchmarking of Quantum Gates"? In it, you'll learn about current research from Prof. Levenson-Falk and and Prof. Lidar at University of Southern California. (arXiv:2407.09942v1) Find out how deterministic benchmarking opens a path towards successful implementation of error-correcting algorithms.👇 🔗 Watch the seminar now here: https://hubs.la/Q034BCzb0 #QuantumTechnology #QuantumComputing #QuantumPhysics

🔊Our next online seminar is tomorrow! "Deterministic Benchmarking of Quantum Gates" We're covering the latest research from Prof. Levenson-Falk and Prof. Lidar at University of Southern California. (arXiv:2407.09942v1) 🔗 Last chance to register here: https://hubs.la/Q02-1nM70 #QuantumTechnology #QuantumComputing #QuantumPhysics"

🚀 Product News! We are excited by the response to the Quanfluence Balanced  Detector- a building block of the photonic quantum computer. Designed to work at high quantum efficiency and high bandwidth over a wide range of wavelengths, this product is a useful receiver in a variety of applications such as LIDAR, imaging, coherent communications and in quantum optics. Some of these detectors are already delivered to customers across the world. Want to learn more? Check out our website for more details, or get in touch with us at info@quanfluence.com #balanceddetector #technology #productupdate #quantum

Arxiv : https://lnkd.in/eWP58WXr 😀 We are excited to announce that our paper has been accepted for presentation at IEEE Global Communications Conference 2024. Our research introduces a method that combines simulation and real-world devices using Hardware-in-the-Loop (HIL) to test LiDAR data acquisition in vehicular networks, especially in high-density environments. We also integrated machine learning algorithms to enhance network performance. The main goal is to create a testbed that incorporates real hardware for evaluating new reinforcement learning (RL) algorithms within a simulation. This approach enables more accurate testing of AI-driven solutions, bridging the gap between simulation and real-world performance and improving the reliability of vehicular networks.

Without further ado... it's new #PhotonicsHotList time! This week... ✈ A compact, energy-efficient LiDAR system is bringing airborne apps a more accurate view than ever before! University of Electronic Science and Technology of China 🌉 A combo of AI, machine vision, and lasers is boosting inspection of bridges and other concrete structures! Drexel University College of Engineering ♻ Laser-driven inertial confinement fusion, which generates tons of energy, is moving us closer to better, cleaner energy sources! University of Rochester #LaboratoryforLaserEnergetics 💖 Watch it, love it, share it! Laser Focus World Vision Systems Design

For today's #HumansOfCIRES, meet Yingfei C., a PhD student working in the Chu Lidar Group at CIRES and the University of Colorado Boulder. Yingfei studies metal layers in the upper atmosphere using sensitive lidar instruments, he grew up in Yangzhou, China, and his favorite meal is Yangzhou Dazhu Gansi! Read the interview: https://lnkd.in/eiwK8yJi

Space We offer a broad spectrum of capabilities in space-based operations, including advanced geospatial intelligence, cutting-edge AI, autonomous ISR network cueing, and space network modeling, simulation, and analysis

Unlock the Quantum Frontier: Experience Unmatched Sensitivity with Our Superconducting Nanowire Single Photon Detectors!

A Tampere University team reports on the generation of a broadband supercontinuum that opens a new avenue for the generation of high-power mid-infrared SC sources in soft-glass fibers: https://ow.ly/iOwM50S2phP Published in Optics Letters [#OPG_OL], the study shows that multimode graded-index fibers have the potential to overcome the power limitation of SC generation in the mid-infrared electromagnetic region while maintaining a good beam quality. The team indicates the fibers to have many potential applications across LIDAR, bioimaging, and molecular fingerprinting. Written by: Ekaterina Krutova, Lauri Salmela, Zahra Eslami, Tanvi Karpate, Mariusz Klimczak, Ryszard Buczynski, and Goëry Genty #biomedical #laserscience #scienceandtechnology #physics