Archive for the ‘engineering’ category: Page 29
Feb 17, 2024
The intersection of bottom-up synthetic cell engineering and nanobiotechnology
Posted by Dan Breeden in categories: biotech/medical, engineering, nanotechnology
Nanotechnology is intimately intertwined with efforts to bring bottom-up synthetic cell research to the forefront, and only strengthening these bonds will expand the scope of what this might achieve.
Feb 17, 2024
Infleqtion Unveils Quantum Roadmap for Quantum Sensing, Software and Computing Products
Posted by Dan Breeden in categories: business, computing, engineering, particle physics, quantum physics
Infleqtion is unique amongst quantum companies due its participation in so many different segments of the quantum computing industry including quantum components, quantum computers, quantum software, and quantum sensors. This strategy of a broad product portfolio provides both advantages and disadvantages for a company. The potential advantages include achieving synergy between different product areas with the neutral atom, atomic prism, photonic, software, and other technologies they have developed over the years. It also brings some diversity in the revenue streams because some products will provide early revenue while others might take a few years of development before they can make a revenue contribution. The potential disadvantages could include execution risks if the engineering resources are spread too thin. Also, there may be different sets of customers and sales channels for the different product lines which can increase the complexities of managing a sales force, calling on customers, and generating new business.
Nonetheless, Infleqtion has made some interesting announcements in the past few months. In 2023 alone, the Quantum Computing Report by GQI ran 17 different stories that included Infleqtion. This week they hosted a webinar to discuss their product roadmaps for sensors, software, and computing. The highlight of the webinar was the announcement of their quantum computing roadmap. In this article, we will cover their plans for quantum computing, but first we will start with the progress they talked about in quantum sensors and quantum software and then discuss quantum computing afterwards.
Infleqtion’s discussion of sensor products included ones named Tiqker, Sqywire, and eXaqt. Tiqker is a small form factor ultra-accurate clock intended for use in navigation, data centers, and communication networks. The company asserts that this clock is 100X more accurate than cesium beam atomic clocks and 100,000X more accurate than a crystal oscillator. In navigation applications it can be used in GPS-denied environments and in communication networks it can help increase bandwidth and reduce latencies due to the more precise clocking of the data signals. The company mentioned that they are partnering with a large company for use of Tiqker in data center applications and that Tiqker is now available for pre-order. Sqywire is an ultra-sensitive radio frequency (RF) receiver that senses RF signals with Rydberg state atom-based sensing. It can be used installed of a classical antenna and provides high sensitivity, lower power, and ultra-wide bandwidth in a form factor.
Feb 17, 2024
Strain engineering of nonlinear nanoresonators from hardening to softening
Posted by Dan Breeden in category: engineering
In the design optimization of resonance frequencies and Q-factor of nanomechanical resonators, the influence of geometric design on the nonlinear dynamics has been rarely investigated. Here, the authors tune the stress field via soft-clamping, simultaneously increasing both the Q-factor and the onset of nonlinearity of a Si3N4 string resonator.
Feb 16, 2024
Chirality engineering for carbon nanotube electronics
Posted by Dan Breeden in categories: engineering, nanotechnology
Chirality fundamentally determines the electrical properties of CNTs and is therefore critical for the performance of CNT electronics. This Review summarizes approaches in controlling the global chirality distribution and local chirality junctions and discusses the progress in CNT electronics.
Feb 16, 2024
Solar Geoengineering Looks to Silicon Valley for New Wave of Funding
Posted by Shailesh Prasad in category: engineering
Tech billionaires are funding research into controversial methods for cooling the planet.
By Corbin Hiar & E&E News
Feb 15, 2024
Engineer designs molecules for our quantum future
Posted by Shubham Ghosh Roy in categories: engineering, quantum physics
Editor’s note: This story is part of Meet a UChicagoan, a regular series focusing on the people who make UChicago a distinct intellectual community. Read about the others here.
Wide is the spectrum of scientific inquiry, ranging from the philosophical— What is information?—to the banal — Where did I put that Allen wrench?
For University of Chicago graduate student Chloe Washabaugh, there is joy to be found in all of it. A Ph.D. student in quantum engineering at the Pritzker School of Molecular Engineering, Washabaugh fashions molecules into tiny quantum information processors, designing them to sense, send or store data—whatever the need.
Feb 15, 2024
A ‘quantum leap’ at room temperature: Ultra-low noise system achieves optical squeezing
Posted by Paul Battista in categories: engineering, quantum physics
In the realm of quantum mechanics, the ability to observe and control quantum phenomena at room temperature has long been elusive, especially on a large or “macroscopic” scale. Traditionally, such observations have been confined to environments near absolute zero, where quantum effects are easier to detect. But the requirement for extreme cold has been a major hurdle, limiting practical applications of quantum technologies.
Now, a study led by Tobias J. Kippenberg and Nils Johan Engelsen at EPFL, redefines the boundaries of what’s possible. The pioneering work blends quantum physics and mechanical engineering to achieve control of quantum phenomena at room temperature.
“Reaching the regime of room temperature quantum optomechanics has been an open challenge since decades,” says Kippenberg. “Our work realizes effectively the Heisenberg microscope—long thought to be only a theoretical toy model.”
Feb 14, 2024
Valentine’s Day 2024: Scientists create gel to mend broken hearts — How does it work?
Posted by Jose Ruben Rodriguez Fuentes in categories: biotech/medical, chemistry, engineering, nanotechnology
Scientists have created a wood pulp hydrogel to strengthen anti-cancer medications and restore damaged cardiac tissue.
Now that they have created a novel hydrogel that can be utilised to repair damaged heart tissue and enhance cancer therapies, you can cure a broken heart on Valentine’s Day, according to SciTech Daily.
Dr Elisabeth Prince, a researcher in chemical engineering at the University of Waterloo, collaborated with scientists from Duke University and the University of Toronto to design a synthetic material that is made of wood pulp-derived cellulose nanocrystals. The material’s unique biomechanical qualities are recreated by engineering it to mimic the fibrous nanostructures and characteristics of human tissues.
Feb 11, 2024
Scientists reveal new photoelectrochemical system to produce green hydrogen
Posted by Shailesh Prasad in categories: chemistry, engineering
Researchers at the Ulsan National Institute of Science and Technology (UNIST) have unveiled a promising photoelectrochemical (PEC) system capable of generating green hydrogen on a large scale.
The team introduces an innovative approach utilizing formamidinium lead triiodide (FAPbI3) perovskite-based photoanodes, encapsulated by a robust Ni foil/NiFeOOH electrocatalyst.
Speaking to Tech Xplore, Jae Sung Lee, Professor of Energy & Chemical Engineering at UNIST and co-author of the paper, highlighted the critical need for efficiency in solar-to-hydrogen (STH) conversion, emphasizing that a minimum of 10% STH efficiency is essential for practical PEC systems. “Our group has thoroughly studied the challenges associated with practical solar hydrogen production,” Lee added.