在本演讲中提到的有关我们未来增长前景的某些陈述是关于我们未来的业务期望的前瞻性陈述,旨在根据1995年的《私人证券诉讼改革法案》获得“安全港”的资格,涉及许多风险和不确定性,这些风险和不确定性可能会导致实际结果与这些前瞻性陈述中的实际结果差异。The risks and uncertainties relating to these statements include, but are not limited to, risks and uncertainties regarding fluctuations in earnings, fluctuations in foreign exchange rates, our ability to manage growth, intense competition in IT services including those factors which may affect our cost advantage, wage increases in India, our ability to attract and retain highly skilled professionals, time and cost overruns on fixed-price, fixed-time frame contracts, client concentration, restrictions on移民,行业细分集中,管理国际运营的能力,减少关键重点领域的技术需求,电信网络中的破坏或系统失败的破坏,我们成功完成并整合潜在收购的能力,对我们服务合同的损害责任,Infosys的成功,策略性投资,撤离或政治稳定的公司的成功,政治稳定,政治稳定,行为稳定,行为稳定,行为稳定,行为稳定,行为稳定,行为稳定,行为稳定。关于筹集印度境外的资本或收购公司,以及未经授权使用我们的知识产权和影响我们行业的一般经济状况。在我们的美国证券交易委员会文件中更全面地描述了可能影响我们未来经营业绩的其他风险,包括我们截至2020年3月31日的财政年度表格20-F的年度报告。这些文件可在www.sec.gov Infosys上获得,可能会不时发表额外的书面和口头前瞻性陈述,包括公司向美国证券交易委员会提交的文件中包含的陈述以及我们向股东的报告。公司不承担更新任何可能不时或代表公司的前瞻性陈述,除非法律要求。
这些前瞻性陈述仅是预测,并且受到已知和未知的风险,不确定性,假设,意外事件和公司控制以外的其他因素,这些风险与事件相关,并且取决于将来会发生的情况,这些风险和其他因素很难预测。These include, but are not limited to: forex and interest rate fluctuations, economic conditions globally, commodity price volatility, credit and liquidity risks, HSE risks, the levels of capital expenditure in the oil and gas industry and other sectors, social, economic, geographic and/or political instability in areas where the Group operates, actions by competitors, success of commercial transactions, risks associated with the execution of projects (including ongoing investment projects), regulatory意大利和国际的发展,涉及公司的法律诉讼的结果;除了改变利益相关者的期望和其他影响业务状况的变化外。
A further expansion of renewable energy sources (RES) and in particular of photovoltaic (PV) systems is necessary in order to reduce the consumption of climate-harmful energy sources. In summer, this expansion can cause a local electricity surplus, which, fed into the distribution grids, can lead to grid's equipment overloads and voltage limits violations. In the future, distribution grid's performance fluctuations caused by RES will be compensated by energy storage –such as battery energy storage systems (BESS)–, load management, sector coupling and other measures [1] [2]. In Germany, a big amount of PV systems for residential buildings are currently installed with BESS [3]. These storage systems lead to a higher electrical self-sufficiency degree (SSD) allowing a further reduction of households' energy costs due to the difference between the low remuneration of the PV energy and the high electricity purchasing costs.
多体系统(微观和宏观)中的统计涨落对物理学有着非常重要的作用,因为它们编码了关于可能的相变、耗散和聚集现象的关键信息[1-6]。涨落的一个尚未开发的新特征是,在量子效应变得重要的情况下,小系统的涨落会增加。我们在最近的两篇论文[7、8]中定量分析了这种影响,在这些论文中,我们讨论了玻色子和费米子热气体中能量密度的涨落。我们的结果表明,在描述重离子碰撞时,相对论流体动力学中使用的流体元素概念存在局限性。当子系统的尺寸降至约0.5 fm以下时,能量密度涨落(对于温度和粒子质量的典型值)变得如此之大,以至于它们与它们的平均值相当。在这种情况下,具有明确能量密度的流体单元的物理图像变得不合理。我们
Arash Ahmadi 涨落的魔力:从量子信息涨落到魔法资源 16:30 - 17:00 海报展示 自由讨论 17:00 - 17:30 海报展示 自由讨论 17:30 - 18:00 海报展示 自由讨论
Advancements in data technology, identifiers, and microelectronics, coupled with a deeper understanding of fire physical science, have significantly contributed to significant growth in the fire identification technology over the past decade. In practice, fire identification technology encounters obstacles such as mitigating deceptive issues, increasing responsiveness through dynamic response, and enabling extremely expensive and complex structures to more easily protect the public and comply with evolving regulations. Provision of shields. The purpose of this article is to examine the fluctuations in innovative endeavours within the field of fire identification, such as advancements in sensor architectures, fire data management, and screen technology that incorporate fire recognition frameworks. Our article examines the recent developments in fire identification technology, including emerging sensor, sign, and observation technologies, also unified fire recognition frameworks. A number of the issues that exist in the contemporary fire detection systems are examined, along with the prospective avenues for this research.
摘要:我们研究形式和非正式经济业务周期之间的同步程度。使用非正式活动的全面数据库,该数据库涵盖了1990 - 2018年期间近160个国家 /地区的广泛非正式措施,我们报告了两个主要结果。首先,非正式行业产出的波动与正式行业产量中的波动密切相关。相比之下,非正式就业的波动与正式行业产量的波动在很大程度上不相关。第二,正式经济中的运动往往会向非正式经济溢出。使用一组新型的仪器变量,我们表明正式部门输出“原因”运动的波动在非正式行业输出中。关键词:非正式经济,自雇,商业周期。JEL代码:E26,E32,J46,O17
– 单一证券的潜力参与有限。– 外币投资受货币波动影响。– 无法保证单一证券分析和主动管理的成功。– 无法保证投资者能够收回投资资本。– 衍生品涉及与流动性、杠杆和信贷波动、非流动性和波动性相关的风险。– 由于市场、行业和发行人相关的变化,投资价格可能出现波动。– 投资中型和小型股公司的流动性可能低于投资大型股公司的流动性。– 货币市场投资与货币市场风险相关,例如利率波动、通胀风险和经济不稳定。– 子基金的投资可能面临可持续性风险。子基金可能面临的可持续性风险可能具有
人们普遍认为宇宙的结构起源于加速膨胀早期的量子涨落。然而,我们今天观察到的模式并不能区分量子涨落和经典的原始涨落;目前的宇宙学数据与这两种可能性都一致。我们在此认为,检测原始非高斯性可以解决目前的情况,并为宇宙结构的量子起源提供试金石。与量子力学不同,真空涨落不能出现在经典理论中,因此长距离经典关联必须来自初始状态的(真实)粒子。与平坦空间散射过程类似,我们展示了基本原理如何要求这些粒子在所谓的折叠配置中表现为 n 点函数中的极点。根据这一观察,并假设涨落 (i) 在大尺度上相关,(ii) 由膨胀阶段的局部演化产生,我们证明非高斯相关器的折叠极限中没有极点唯一地标识了量子真空是初始状态。本着与贝尔不等式相同的精神,我们讨论了如果放弃局部性,如何能避免这种情况。
本演示文稿包含反映桑托斯在本报告日期的期望的前瞻性陈述(包括关于桑托斯的策略和与气候变化有关的策略和计划)。这些陈述基于管理层的当前期望,并反映了本文档和/或计划的计划日期的判断,假设,假设,估计和其他信息。但是,一系列变量可能导致实际结果或趋势与我们所做的陈述有重大不同。These variables include but are not limited to: price or currency fluctuations, actual demand, geotechnical factors, drilling and production results, gas commercialisation, development progress, operating results, engineering estimates, reserves and resource estimates, loss of market, industry competition, environmental and climate-related risks, carbon emissions reduction and associated technology risks, physical risks, legislative, fiscal and regulatory developments, economic and financial market conditions in various countries,批准,合资参与者的行为和合同对手的行为,成本估算,声誉风险,社会许可以及利益相关者的风险和行动主义。