澳洲论文代写:核村

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澳洲论文代写:核村

核村指的是由公用事业和核供应商组成的机构和个人支持核能的倡导者。它还包括饮食、金融部门和官僚机构。这是一个没有边界和居留证的村庄。这似乎是想象中的集体对核能的推动。它也被认为是与决定被称为大企业铁三角的重叠。它表明了政府与私营部门之间的合作关系(Hashizume, 2012)。

澳洲论文代写:核村

核村被认为是一个强大的利益集团,它包含了强有力的联系议程,因此,在既定议程的帮助下,能够获得有关业务的盈利能力的有效可能性。随着各公司的扩张,贷款机构似乎直接参与了公司的业务,而与核相关的公司的投资者也开始将其作为巨大的学术研究人员来展示。

澳洲论文代写:核村

The nuclear village refers to the institutional and the individual pro-nuclear advocates that comprise of the utilities and the nuclear vendors. It also comprises of the diet, financial sectors and the media with the bureaucracy. This is indicated as a village with consisting of no boundaries and the residence cards. It seems to be imagined collective bound over promoting the nuclear energy. It is also considered as the overlap with determined to be known as the Iron Triangle of the big business. It indicates the cooperative ties between the government and the private sectors (Hashizume, 2012).

澳洲论文代写:核村
The nuclear village is indicated as a powerful interest group with consisting of powerful tie up agenda and thereby, the effective possibilities of gaining profitability regarding the business are indicated by the help of the established agendas. With the expansion of the various companies, the lenders are seemed to be directly involved with the companies, and the investors in the nuclear-related firms are extending to present it as giant academic researchers.

多伦多大学代写:硅晶体生长与晶圆技术

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多伦多大学代写:硅晶体生长与晶圆技术

这篇文章的目的是批判性地评论一篇文章。本文选择的这篇文章是Graham Fisher和Robert Standley(2012)所著的《硅晶体生长与晶圆技术》。本文讨论了半导体硅晶片技术的历史沿革,包括近年来晶片的晶片和成长性的发展。进一步的讨论集中于技术,以更好地了解CMOS的当前性能。

多伦多大学代写:硅晶体生长与晶圆技术

在这篇文章中,我们很好地认识到,硅基板是建立模型微电子(Buonassisi, 2016)的基础。虽然硅片技术最初的50年主要是由工业微电子驱动的,但光电技术的应用推动了矽晶圆技术的新进展。该研究通过回顾该技术的过去的发展和发展,进一步突出了在晶片技术和大量晶体生长方面的最新技术进步(Dahiya, 2016)。

多伦多大学代写:硅晶体生长与晶圆技术

The aim of this essay is to critically review an article. The article selected for this purpose is “Silicon Crystal Growth and Wafer Technologies” by Graham Fisher and Robert Standley (2012). This article discusses on the historical establishment of wafer technology with semiconductor silicon that include the recent advancements of wafering and growth in bulk crystals. Further discussion focuses on technologies for better understanding the current capabilities of CMOS.

多伦多大学代写:硅晶体生长与晶圆技术
It is well acknowledged in the article that silicon substrates are responsible for establishing the fundamental base of model microelectronics (Buonassisi, 2016). While the initial 50 years for technology of silicon wafer were driven primarily by the industry microelectronics, the application of photovoltaics has been driving the new advancements in technology of silicon wafer. The research reflects its effectiveness by reviewing the past development and evolution of this technology by further highlighting the latest technical advancements in wafering technologies and bulk crystal growth (Dahiya, 2016).