就是反求设计(Inverse Design)或反求工程(Inverse Engineering),这两者是同一内涵,仅是不同国家的不同提法。发展到 … 51base.com|基于28个网页 2. 反演设计问题 ...里 ,行为参数是通过实验测量得到的 ; 2) 模型反演设计问题(Inverse Design) [4 ] ,这里 ,把 行为参数作为设计目标加以设定 。
inverse-designorbital angular momentumparticle rotation controltwisted ultrasonic motorA new level of freedom is made possible by orbital angular momentum (OAM), which can be used to create twisted ultrasonic motors for particle manipulation and control. For steady and free-flowing part...
ARTICLE https://doi.org/10.1038/s41467-021-22897-4 OPEN Inverse-design magnonic devices Qi Wang 1✉, Andrii V. Chumak 1 & Philipp Pirro 2 The field of magnonics offers a new type of low-power information processing, in which magnons, the quanta of spin waves, carry and process data ...
Meta-optics has achieved major breakthroughs in the past decade; however, conventional forward design faces challenges as functionality complexity and device size scale up. Inverse design aims at optimizing meta-optics design but has been currently limited by expensive brute-force numerical solvers to s...
Materials inverse designmachine learningtarget propertiesdeep learningnew materials discoveryFinding materials with specific properties is a hot topic in materials science. Traditional materials design relies on empirical and trial-and-error methods, requiring extensive experiments and time, resulting in high ...
In general inverse problems, given a forward process y = f(x), the goal is to then find a suitable inverse model x = f−1(y) to map the reverse process. In the context of materials discovery, the forward mapping from materials design parameters to target property can take th...
The inverse design approach in magnonics exploits the wave nature of magnons and machine learning to develop novel logical devices with unique functionalities that exceed the capabilities of analytical methods. Despite its potential in analog, Boolean, and neuromorphic computing, existing implementations are...
Inverse design is an outstanding challenge in disordered systems with multiple length scales such as polymers, particularly when designing polymers with desired phase behavior. Here we demonstrate high-accuracy tuning of poly(2-oxazoline) cloud point via
where free-space propagation is commonly used in place of a random scattering medium (Fig.1c). Furthermore, inverse design techniques have also enabled a variety of optical circuits tailored towards specific functionalities, ranging from designs of on-chip photonic devices25to arrangements of bulk ...
Anapole states are broadly investigated in nanophotonics for their ability to provide field enhancement and transparency. While low extinction has been achieved in dielectric nanoparticles due to the absence of intrinsic losses, in the case of plasmonic nanostructures this is still lacking. Here, we re...