声学超表面的非对称声分束特性研究

非对称声分束超表面是由人工微单元结构按照特定序列构建的二维平面结构,可将垂直入射的声波分成两束传播方向和分束比自由调控的透射波,在声功能器件设计及声通信领域具有广泛的应用前景。本文系统研究了一种实现非对称声分束的设计理论和实现方法,基于局域声功率守恒条件研究了声分束器的设计理论、阻抗矩阵分布、法向声强分布、声压场分布等。利用遗传算法对四串联共振腔结构进行参数优化实现了声分束器所需的阻抗矩阵分布,声压场分布表明声波入射到声分束器后在入射侧激发出两列传播方向相反且幅值和衰减系数均相同的表面波,实现了入射侧与透射侧的局域声功率相互匹配。声波经过声分束器后被分为两束透射波,两束透射波的折射角和透射系数与理论值十分吻合,证明了设计理论及实现方法的正确性和可行性。本文的研究工作可以为新型非对称声分束结构设计提供理论参考、设计方法和技术支持,并促进其在工程领域的实际应用。     

整体观视角下高中数学教学的建构与思考——兼谈“双曲线的标准方程”的教学北大核心

1引言《现代汉语词典》(第7版)中关于“整体”的解释为:“整个集体或整个事物的全部(对各个成员或各个部分而言)”[1].在哲学范畴,联系是唯物辩证法的起点,生活中所有事物都是紧密联系的.数学是研究数量关系和空间形式的一门科学,对现实世界的抽象是数学的来源.关于数学的整体性,有不少经典的表述,如著名数学家约瑟夫·傅里叶曾说:“Mathematics compares the most diverse phenomena,and discovers the most secret analogies which unite them.”(数学能从事物的个性之中寻求事物的共性特征.)普遍联系的原理走向具体化与深层次的体现之一就是系统观的形成,而系统论最本质的特征就是整体性.     

中国生物医学超声联合学术年会(CUMB2019)在北京举行

2019年10月18日–20日,中国声学学会生物医学超声工程分会、中国生物医学工程学会医学超声分会与中国超声医学工程学会仪器工程开发专业委员会在北京联合主办了“2019年度中国生物医学超声联合学术年会”,同期共同举办的还有国际分子影像与微创治疗大会、国际肌肉骨骼及浅表器官超声研讨会和国际生物医学造影技术会议。     

一类三角形存在性的进一步结论

特别约定：满足1/a^2＋1/b^2=1的椭圆x^2/a^2＋y^2/b^2=1称为标准椭圆．以标准椭圆的中心为圆心的圆x^2＋y^2=r^2称为标准椭圆的同心圆．     

The acoustic characteristics of clause, sentence and paragraph boundaries in Chinese Putonghua

The acoustic and perceptive characteristics of discourse units, including clauses, simple sentences, compound sentences and paragraphs, were studied. The acoustic characteristics were based on the analysis of a speech corpus consisted of ten monologues. The Perceived Boundary Strength (PBS) of the monologues was labeled on a five-point scale by 25 participants. The main results are as follows: (1) There is a significant difference in the PBS of clauses (corresponding to intonational phrase), sentences (including simple sentences and compound sentences) and paragraphs. But the PBS of simple sentences and compound sentences is the same, and the pitch reset and pause are also not significantly different between these two kinds of boundaries. (2) The pitch-based cue used to distinguish clauses, sentences and paragraphs appears to be the difference between pre- and post-boundary syllables, but not simply the pitch value of either syllable alone. (3) Declination mainly occurs within intonational phrases, whereas there is no consistent global declination in sentences or in paragraphs. (4) Pauses are longer and more varied at the boundary of larger discourse units. Moreover, there is a significant positive correlation between pause duration and degree of pitch reset at clause boundaries, but not at sentence or paragraph boundaries.     

课本习题改造是"数学探究"的重要渠道

普通高中数学课程标准明确指出:“倡导积极主动、勇于探索的学习方式”,设立“数学探究”“数学建模”等学习活动,为学生形成积极主动的、多样的学习方式进一步创造有利的条件……高中数学课程应力求通过各种不同形式的自主学习、探究活动,让学生体验数学发现和创造的历程,发展     

数学课堂教学设计的艺术

《普通高中数学课程标准（实验）》的第四部分《实施建议》指出：“数学教学要体现课程改革的基本理念，在教学设计中充分考虑数学的学科特点，高中学生的心理特点，不同水平、不同兴趣学生的学习需要，运用多种教学方法和手段，引导学生积极主动地学习，掌握数学的基础知识和基本技能以及它们所体现的数学思想方法，发展应用意识和创新意识，对数学有较为全面的认识，提高数学素养，形成积极的情感态度，为未来发展和进一步学习打好基础。”由此可见,     

21世纪最具潜力的新型带隙材料——声子晶体

半导体发展中遇到的极大障碍,使许多研究人员开始研究光子晶体。然而,声子晶体比光子晶体具有更丰富的物理内涵,它是一种新型声学功能带隙材料。研究声子晶体的重要意义在于其广阔的应用前景,而且在研究过程中,还可能发现新现象和新规律,进而促进物理学的发展。一、什么是声子晶体声子晶体的概念诞生于20世纪90年代,是仿照光子晶体的概念而命名的。我们都知道,具有光子禁带的周期性电介质结构功能材料称为光子晶体,光子能量落在光子禁带中的光波将被禁止,不能在光子晶体中传播。通过对光子晶体周期结构及其缺陷进行设计,可以人为地调控光子…     

Advances in micro-perforated panel absorbers

Theoretical and experimental investigations on the performance of micro-perforated -panel absorbers are reviewed in this paper. By reviewing recent research work, this paper reveals a relationship between the maximum absorption coefficient and the limit of the absorption frequency bandwidth. It has been demonstrated that the absorption frequency bandwidth can be extended up to 3 or 4 octaves as the diameters of the micro-holes decrease. This has become possible with the development of the technologies for manufacturing micro-perforated panels, such as laser drilling, powder metallurgy, welded meshing and electro-etching to form micrometer order holes. In this paper, absorption characteristics of such absorbers in random fields and in high sound intensity are discussed both theoretically and experimentally. A new absorbing structure based on micro-perforated-panel absorbers demonstrate experimentally high sound absorption capability. This review shows that the micro-perforated-panel absorber has potentials to be one of ideal absorbing materials in the 21st century.