中文版 | English

在结果中检索

GSTDTAP

浏览/检索结果: 共26条,第1-10条 帮助

已选(0)清除 条数/页:   排序方式:
UNEP成立全球尾矿管理协会 快报文章
资源环境快报,2025年第3期
作者:  牛艺博
Microsoft Word(20Kb)  |  收藏  |  浏览/下载:489/0  |  提交时间:2025/02/16
UNEP  Tailings Management  Institute  
美国机构发布2025—2029年环境健康战略计划草案 快报文章
资源环境快报,2024年第12期
作者:  廖琴
Microsoft Word(27Kb)  |  收藏  |  浏览/下载:85/5  |  提交时间:2024/06/29
Environmental Health  Research Areas of Emphasis  National Institute of Environmental Health Sciences  Strategic Plan  
牛津能源研究所发布《2024年全球能源经济主题》报告 快报文章
气候变化快报,2024年第3期
作者:  刘莉娜
Microsoft Word(17Kb)  |  收藏  |  浏览/下载:598/0  |  提交时间:2024/02/05
Oxford Institute for Energy Studies  Energy  Economy  
美国国家科学基金会宣布新增七个国家人工智能研究所 快报文章
资源环境快报,2023年第09期
作者:  李恒吉
Microsoft Word(24Kb)  |  收藏  |  浏览/下载:652/0  |  提交时间:2023/05/17
NSF  AI  Institute of Artificial Intelligence  
牛津能源研究所发布《净零碳未来的储氢》报告 快报文章
气候变化快报,2023年第08期
作者:  刘莉娜
Microsoft Word(17Kb)  |  收藏  |  浏览/下载:594/0  |  提交时间:2023/04/20
Net-zero Carbon Future  Hydrogen Storage  The Oxford Institute for Energy Studies  
These cancer scientists turned their lab into a coronavirus-testing facility 期刊论文
NATURE, 2020, 580 (7804) : 441-441
作者:  Tremblay, Bradford P.;  Haynes, Cole M.
收藏  |  浏览/下载:12/0  |  提交时间:2020/07/03

Researchers at London'  s Francis Crick Institute have repurposed equipment, reagents and software in response to the pandemic.


Researchers at London'  s Francis Crick Institute have repurposed equipment, reagents and software in response to the pandemic.


  
Classification with a disordered dopantatom network in silicon 期刊论文
NATURE, 2020, 577 (7790) : 341-+
作者:  Vagnozzi, Ronald J.;  Maillet, Marjorie;  Sargent, Michelle A.;  Khalil, Hadi;  Johansen, Anne Katrine Z.;  Schwanekamp, Jennifer A.;  York, Allen J.;  Huang, Vincent;  Nahrendorf, Matthias;  Sadayappan, Sakthivel;  Molkentin, Jeffery D.
收藏  |  浏览/下载:30/0  |  提交时间:2020/07/03

Classification is an important task at which both biological and artificial neural networks excel(1,2). In machine learning, nonlinear projection into a high-dimensional feature space can make data linearly separable(3,4), simplifying the classification of complex features. Such nonlinear projections are computationally expensive in conventional computers. A promising approach is to exploit physical materials systems that perform this nonlinear projection intrinsically, because of their high computational density(5), inherent parallelism and energy efficiency(6,7). However, existing approaches either rely on the systems'  time dynamics, which requires sequential data processing and therefore hinders parallel computation(5,6,8), or employ large materials systems that are difficult to scale up(7). Here we use a parallel, nanoscale approach inspired by filters in the brain(1) and artificial neural networks(2) to perform nonlinear classification and feature extraction. We exploit the nonlinearity of hopping conduction(9-11) through an electrically tunable network of boron dopant atoms in silicon, reconfiguring the network through artificial evolution to realize different computational functions. We first solve the canonical two-input binary classification problem, realizing all Boolean logic gates(12) up to room temperature, demonstrating nonlinear classification with the nanomaterial system. We then evolve our dopant network to realize feature filters(2) that can perform four-input binary classification on the Modified National Institute of Standards and Technology handwritten digit database. Implementation of our material-based filters substantially improves the classification accuracy over that of a linear classifier directly applied to the original data(13). Our results establish a paradigm of silicon-based electronics for smallfootprint and energy-efficient computation(14).


  
Europe Surrounded Not by a Ring of Friends – But by a Ring of Fire 科技报告
来源:Center for Strategic and International Studies (CSIS). 出版年: 2015
作者:  [null]
收藏  |  浏览/下载:10/0  |  提交时间:2019/04/05
Brzezinski Institute on Geostrategy  Energy and Geopolitics  Europe  Statesman Laureate Lectures  
Project 57 Air Monitoring Annual Report - Fiscal Year 2013 (October 1, 2012 to September 30, 2013) 科技报告
来源:US Department of Energy (DOE). 出版年: 2014
作者:  Miller, Julianne J.;  McCurdy, Greg;  Mizell, Steve A
收藏  |  浏览/下载:13/0  |  提交时间:2019/04/05
The U.S. Department of Energy (DOE)  National Nuclear Security Administration  Nevada Field Office (NNSA/NFO) is currently working to achieve regulatory closure of radionuclide-contaminated Soils sites under its auspices. Corrective Action Unit (CAU) 415  Project 57 No. 1 Plutonium Dispersion Site is located in Emigrant Valley  Nevada  on Range 4808A of the Nevada Test and Training Range (NTTR)  and consists of one Corrective Action Site (CAS): NAFR-23-02  Pu Contaminated Soil. Closure plans being developed for the CAUs both on and off of the Nevada National Security Site (NNSS) may include postclosure monitoring for the possible release of radioactive contaminants. Determining the potential for transport of radionuclide-contaminated soils under ambient climatic conditions will facilitate an appropriate closure design and postclosure monitoring program. The DOE has authorized the Desert Research Institute (DRI) to conduct field assessments of potential transport of radionuclide-contaminated soil from the Project 57 site during ambient wind events. The assessment is intended to provide site-specific information on meteorological conditions that result in airborne soil particle redistribution  as well as determine which  if any  radiological contaminants may be entrained with the soil particles and estimate their concentrations.  
Radiochemically-Supported Microbial Communities: A Potential Mechanism for Biocolloid Production of Importance to Actinide Transport 科技报告
来源:US Department of Energy (DOE). 出版年: 2014
作者:  Moser, Duane P;  Hamilton-Brehm, Scott D;  Fisher, Jenny C;  Bruckner, James C;  Kruger, Brittany;  Sackett, Joshua;  Russell, Charles E;  Onstott, Tullis C;  Czerwinski, Ken
收藏  |  浏览/下载:42/0  |  提交时间:2019/04/05
Due to the legacy of Cold War nuclear weapons testing  the Nevada National Security Site (NNSS  formerly known as the Nevada Test Site (NTS)) contains millions of Curies of radioactive contamination. Presented here is a summary of the results of the first comprehensive study of subsurface microbial communities of radioactive and nonradioactive aquifers at this site. To achieve the objectives of this project  cooperative actions between the Desert Research Institute (DRI)  the Nevada Field Office of the National Nuclear Security Administration (NNSA)  the Underground Test Area Activity (UGTA)  and contractors such as Navarro-Interra (NI)  were required. Ultimately  fluids from 17 boreholes and two water-filled tunnels were sampled (sometimes on multiple occasions and from multiple depths) from the NNSS  the adjacent Nevada Test and Training Range (NTTR)  and a reference hole in the Amargosa Valley near Death Valley. The sites sampled ranged from highly-radioactive nuclear device test cavities to uncontaminated perched and regional aquifers. Specific areas sampled included recharge  intermediate  and discharge zones of a 100  000-km2 internally-draining province  known as the Death Valley Regional Flow System (DVRFS)  which encompasses the entirety of the NNSS/NTTR and surrounding areas. Specific geological features sampled included: West Pahute and Ranier Mesas (recharge zone)  Yucca and Frenchman Flats (transitional zone)  and the Western edge of the Amargosa Valley near Death Valley (discharge zone). The original overarching question underlying the proposal supporting this work was stated as: Can radiochemically-produced substrates support indigenous microbial communities and subsequently stimulate biocolloid formation that can affect radionuclides in NNSS subsurface nuclear test/detonation sites? Radioactive and non-radioactive groundwater samples were thus characterized for physical parameters  aqueous geochemistry  and microbial communities using both DNA- and cultivation-based tools in an effort to understand the drivers of microbial community structure (including radioactivity) and microbial interactions with select radionuclides and other factors across the range of habitats surveyed.