https://techxplore.com/news/2024-10-ultraprecise-method-aligning-3d-semiconductor.html logotype Topics * Week's top * Latest news * Unread news * Subscribe [ ] Science X Account [ ] [ ] [*] Remember me Sign In Click here to sign in with or Forget Password? Not a member? Sign up Learn more * Automotive * Business * Computer Sciences * Consumer & Gadgets * Electronics & Semiconductors * Energy & Green Tech * Engineering * Hardware * Hi Tech & Innovation * Internet * Machine learning & AI * Other * Robotics * Security * Software * Telecom [INS::INS] * * share this! * 36 * Twit * Share * Email 1. Home 2. Engineering 1. Home 2. Electronics & Semiconductors * * * --------------------------------------------------------------------- October 28, 2024 Editors' notes This article has been reviewed according to Science X's editorial process and policies. Editors have highlighted the following attributes while ensuring the content's credibility: fact-checked peer-reviewed publication trusted source proofread Ultraprecise method of aligning 3D semiconductor chips invented by University of Massachusetts Amherst Ultraprecise method of aligning 3D semiconductor chips invented at UMass Amherst [Left] Semiconductor layers are stacked using concentric metalenses as alignment marks. [Right] Light shines through these marks to project a hologram. The alignment or misalignment of the lenses dictates the hologram's appearance. Credit: Amir Arbabi Researchers at the University of Massachusetts Amherst have invented a new way to align 3D semiconductor chips by shining a laser through concentric metalenses patterned on the chips to produce a hologram. Their work, published in Nature Communications, can help to lower the cost of producing 2D semiconductor chips, enable 3D photonic and electronic chips, and may pave the way for other low-cost, compact sensors. Semiconductor chips enable electronic devices to process, store and receive information. These functions are controlled by the specific pattern of components inlaid into the chip. However, this 2D design has reached its upper limit of technological advancement and 3D integration is considered the most promising solution. To make a 3D chip, multiple 2D chips are stacked and their layers need to be aligned down to tens of nanometers (one millimeter is equal to 1 million nanometers). And they need to be aligned along three dimensions--forward and back, left to right and the gap between the two chips (along the x, y and z axes). "The traditional approach for aligning two layers is to look with a microscope for marks (typically corners or crosshairs) on the two layers and to try to overlap them," explains Amir Arbabi, associate professor of electrical and computer engineering at UMass Amherst and senior author on the paper. Existing microscope-based alignment methods are ill-suited for making these 3D chips. "The microscope cannot simultaneously see both crosshairs in focus because the gap between the layers is hundreds of microns, and the motion to refocus between layers introduces opportunities for the chips to shift and further misalign," says Maryam Ghahremani, doctoral candidate and lead author on the paper. Ultraprecise method of aligning 3D semiconductor chips invented at UMass Amherst Simulated and measured results of different sizes of lateral misalignment, from 150 nm to 1 micrometer (or 1,000 nm). Credit: Amir Arbabi Also, "the smallest features you can resolve are set by the diffraction limit, which is around 200 nanometers," she adds. [INS::INS] The new alignment method created by Arbabi and his team has no moving parts and can see misalignments between two distant layers at a much smaller scale. The researchers were hoping to reach 100-nm precision. Instead, their method finds errors up to 0.017 nm along side-to-side measures (x and y axes) and 0.134 nm when assessing the distance between the two chips (z-axis). "Consider you have two objects. By looking at the light that goes through them, we can see if one moved by the size of an atom with respect to the other one," Arbabi says, far exceeding their expectations. The naked eye can spot errors as small as a few nanometers, and computers can read even smaller ones. * Ultraprecise method of aligning 3D semiconductor chips invented at UMass Amherst Computers can read misalignments undetectable by the naked eye, as illustrated by this 10-nm lateral misalignment. Credit: Amir Arbabi * Ultraprecise method of aligning 3D semiconductor chips invented at UMass Amherst Simulated and measured results of different sizes of misalignment in the gap between two layers, from 1 micrometer (or 1,000 nm) to 3 um. Credit: Amir Arbabi To achieve this, they embedded alignment marks made from concentric metalenses on the semiconductor chip. When light from a laser shines through these marks on both chips, it projects two interfering holograms. "This interference image shows if the chips are aligned or not, as well as the direction and the amount of their misalignment," says Ghahremani. "[Chip alignment] is a big, costly challenge for some of the companies that work in manufacturing semiconductor tools," Arbabi says. "Our approach addresses one of the challenges of making them." Lower costs also increase access to this technology for smaller startup companies looking to innovate with semiconductors. Arbabi also points out that this method can be used to make displacement sensors that can be used for measuring displacements and other quantities. "Many physical quantities that you want to detect can be translated to displacements, and the only thing you need is a simple laser and a camera," he says. For instance, "if you want a pressure sensor, you could measure the movement of a membrane." Anything that involves movement--vibration, heat, acceleration--can in theory be tracked by this method. More information: Maryam Ghahremani et al, 3D alignment of distant patterns with deep-subwavelength precision using metasurfaces, Nature Communications (2024). DOI: 10.1038/s41467-024-53219-z Journal information: Nature Communications Provided by University of Massachusetts Amherst Citation: Ultraprecise method of aligning 3D semiconductor chips invented (2024, October 28) retrieved 7 November 2024 from https:// techxplore.com/news/ 2024-10-ultraprecise-method-aligning-3d-semiconductor.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. --------------------------------------------------------------------- Explore further What is a semiconductor? 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