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第11届泛珠三角及中华名校物理奥林匹克邀请赛真题


2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

Pan Pearl River Delta Physics Olympiad 2015 2015 年泛珠三角及中华名校物理奥林匹克邀请赛 Sponsored by Institute for Adva

nced Study, HKUST 香港科技大学高等研究院赞助 Part-1 (Total 5 Problems) 卷-1(共5题) (9:00 am – 12:00 pm, 25 February, 2015) Numerical answers should be given to 3 significant figures.数字答案请给三位有效数字。 1. Retrograde Motion of Mars (9 points) 火星的逆行运动 (9 分) In the history of astronomy, the phenomenon of the retrograde motion played an important role. Suppose we observe the position of Mars at midnight every night for many nights. Using distant stars and constellations as the background, we will find that Mars moves from West to East most of the time. However, there are periods of time that Mars is observed to move in opposite direction, as shown in the figure. The orbital period of Mars is 1.88 y. Assume that the orbits of Earth and Mars are circular, and the tilting of Earth’s axis can be ignored.
在天文史上,行星的逆行运动扮演了重要的角色。假设我们连续多个晚上在午夜观察火星的位置。 若以远处的星体和星座为背景,我们会发现大部分时间火星是从西到东运动,但也有些时段是逆 向运动,如图所示。火星的轨道周期是 1.88 年。假设地球和火星的轨道都是圆的,地轴的倾斜可 略。
Distant constellation 远处的星座 Star T 星T

t=0 t>0

t<0

East 东
o

West 西

20

15

o

10

o

5

o

0o

-5

o

-10

o

-15

o

-20

o

(a) What is the orbital radius RM of Mars? Give your answer in AU (Astronomical Units, 1 AU is the average distance between Sun and Earth.) (1 points) 试求火星的轨道半径 RM。答案请以 AU 为单位。(1 AU 是太阳与地球的平均距离。)(1 分) (b) At t = 0, Sun, Earth and Mars lie on a straight line. Sketch a figure indicating the positions of Sun, Earth, Mars, and star T when t > 0. Label them by letters S, E, M, and T respectively. Mark the angular displacements ?E and ?M of Earth and Mars respectively (starting from t = 0), and the angle ? that gives the angular position of Mars as observed from Earth using distant stars and constellations as the background. (2 points) 在 t = 0 时,太阳、地球、火星成一直线。试作一草图,显示在 t > 0 时,太阳、地球、火星 和星 T 的位置,以 S,E,M 和 T 标示。在图上标示地球和火星的角位移分别为?E 和 ?M(自 t = 0 开始),和地球观察火星的角位置?(以远处的星体和星座为背景)。(2 分)
1

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(c) Derive an expression for the angular position ? of Mars at time t. Express your answer in terms RE, RM, ?E, ?M and t, where ?E and ?M are the orbital angular velocity of Earth and Mars respectively. (3 points) 试推导火星在时间 t 时的角位置?。答案请以 RE, RM, ?E, ?M 和 t 表示,其中?E 和?M 分 别为地球与火星的角速度。(3 分) (d) Calculate the angular position ? of Mars at t = 0.1 y, 0.2 y and 0.3 y. Give your answer in degrees. (3 points) 试计算火星在 t = 0.1 年, 0.2 年和 0.3 年时的角位置?。答案请以度数表示。(3 分) 2. Rolling Ball on a Racket (10 points) 球拍滚球(10 分) As shown in the figure, a hollow spherical ball of mass M and radius R is placed on a racket of mass m. The racket has a flat surface with coefficient of static friction ?s and coefficient of kinetic friction ?k and is held horizontally. 如图所示,一个质量为 M,半径为 R 的空心园球被放置在质量为 m 的球拍上。球拍具有 一个平坦的表面,其静摩擦系数为?s,动摩擦系数为?k,并且被保持在水平位置。 M m F (a) The racket is driven horizontally by a periodic force F (t ) ? F0 cos ?0t , with the ball remaining non-slipping. Calculate the maximum velocities of the oscillations of the racket and the ball, denoted as ux and uy respectively. (The moment of inertia of a hollow sphere of mass M and radius R is I = 2MR2/3.) (5 points) 球拍被周期性的力 F (t ) ? F0 cos ?0t 沿水平方向驱动,园球维持在不滑动的状态。试计 算球拍与球振动时的最大速度,分别表示为 ux 和 uy。(质量为 M,半径为 R 的空心球 体的转动惯量为 I = 2MR2/3。) (5 分) (b) At the moment the racket is oscillating at its maximum velocity, its motion is brought to rest abruptly by an external force much stronger than the limiting frictional force between the racket and the ball in a very short duration of time. What is the final velocity of the ball? If the final velocity of the ball is 0, what is the displacement of the ball? (5 points) 在球拍振动至最大速度的一刻,其运动突然被外力煞停,这外力比球拍与球之间的极 限摩擦力强得多,作用的时间也很短。问球的最终速度是多少?若球的最终速度为 0, 其位移是多少?(5 分) 3. Balloon (10 points) 气球(10 分) The work done in stretching a spring is converted to its spring energy. Likewise, the work done in stretching a membrane is converted to its surface energy, given by E = ?S, where ? is called the surface tension of the membrane, and S is its surface area. 拉伸弹簧所做的功被转换成弹簧的内能。同样,拉伸薄膜所做的功被转换成它的表面能E = ?S, 其中?称为薄膜的表面张力,而S是其表面面积。 R

2

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(a) Consider a balloon of radius R. What is the change in surface energy when the radius changes by dR? Hence derive an expression for the pressure due to surface tension. (2 points) 考虑半径为R的气球。当半径改变为dR时,表面能的变化是多少?由此推导表面张力形成的压 力的表达式。(2分) (b) The surface tension of balloon A is ?. When it is filled with a diatomic ideal gas, its radius becomes R0. The surface tension of balloon B is 2?. When it is filled with the same kind of ideal diatomic gas, its radius becomes R0. The temperature of the environment is T. The two balloons are then connected so that the gases are free to exchange between them until a steady state is reached. The final temperature is the same as that of the environment. What are the final radii of the two balloons respectively? You may neglect the atmospheric pressure in the analysis. (4 points) 气球A的表面张力为?。当它充满了一种双原子的理想气体,其半径是R0。气球B的表面张力 为2?。当它被相同的双原子理想气体充满时,其半径是R0。环境的温度为T。然后两个气球被
连接,使得气体可以在它们之间自由交流,直至达到稳定状态。最终温度与环境相同。问两 个气球最终的半径分别是什么?在分析中你可以忽略大气压力。(4分)

(c) What are the amounts of heat gain by the gases in balloons A and B respectively during the gas exchange process in (b)? (4 points) 在(b)部的气体交流过程中,气球A和B增加的热能分别是什么?(4分) 4. Fresnel Biprism (10 points) 菲涅耳双棱镜(10 分) Fresnel biprism was devised shortly after the famous Young’s double slit experiment to confirm the interference phenomenon. Nowadays, it is widely used in different applications. As shown in the figure, it consists of a single light source S and a pair of wedge-shaped prisms arranged back to back. We introduce the following notations: 在著名的杨氏双缝实验面世后不久,便产生了菲涅耳双棱镜的设计,用以确认干涉现象。 如今,它被广泛用于不同的应用。如图所示,它由一个单一的光源 S 和一对背对背的楔 形棱镜组成。我们引入以下符号: n = refractive index of the biprism 双棱镜的折射率 ? = apex angle of each prism 双棱镜的顶角 b = distance between light source and biprism 光源与双棱镜的距离 c = distance between biprism and screen 双棱镜与屏幕的距离 ? = wavelength of light 光的波长

?
S

?
b c

(a) Derive an expression for the angular deviation after a light beam has passed through one of the two prisms. (3 points) 试推导光束经过其中一个棱镜后偏转角的表达式。(3 分)
3

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(b) Derive an expression for the separation of the fringes on the screen. (4 points) 试推导屏幕上条纹距离的表达式。(4 分) (c) In a modern application on electron microscopes, the single light source is replaced by a parallel beam of wave incident normally to the flat surface of the biprism. Derive an expression for the separation of the fringes on the screen. (3 points) 在现代,这原理已应用到电子显微镜中。在这应用中,单个光源被替换成入射的平行 波束,垂直于双棱镜的平面。试推导屏幕上条纹距离的表达式。(3 分) 5. Ionic Crystals (11 points) 离子晶体(11 分) An ionic crystal can be modeled by a chain of positively and negatively charged ions. The ionic separation is a. The positive ions with atomic mass M are located at the positions x = na where n is even. The negative ions with atomic mass m (m < M) are located at the positions x = na where n is odd. The ions are coupled to their neighbors by springs, which provide restoring forces to their transverse displacements. The returning force is proportional to the displacements of the ions relative to their neighbors, and the spring constant is k. 我们可以一串带正电和带负电的离子,作为离子晶体的模型。离子间的距离为 a。正离子 的原子质量为 M,处于位置 x = na,其中 n 是偶数。负离子的原子质量为 m(m < M), 处于在位置 x = na,其中 n 是奇数。相邻的离子有弹簧耦合,弹簧为离子的横向位移提供 返回力。返回力正比于离子相对于相邻离子的位移,并且弹簧常数为 k。 (a) Let un(t) be the transverse displacement of the ion at x = na and time t. Derive the equations of motion for both types of ions. Show that the solution of the equation of motion can be written as 令 un(t)为处于 x= na 的离子在时间 t 的横向位移。试推导两种类型离子的运动方程。 表明运动方程的解可以写成

? AM sin(qna ? ?t ) n even, un (t ) ? ? ? Am sin(qna ? ?t ) n odd.
(b) Find the relation between q and ?. (3 points) 试找出 q 与?的关系。(3 分) Find the solutions of ? in the limit q = 0, and the relation between AM and Am for each solution. (2 points) 在极限 q = 0,求?的所有解,并且求在每个解中 AM 与 Am 间的关系。(2 分) In the limit q = 0, calculate the wave velocity of the low frequency mode. (1 point) 在极限 q =0,试计算低频模式的波速。(1 分) In the limit q = ?/2a, find the solutions of ?, and the relation between AM and Am for each solution. (2 points) 在极限 q = ?/2a,求?的所有解,并且求在每个解中 AM 与 Am 间的关系。(2 分) Sketch the angular frequency ? as a function of the wavenumber q from q = ??/2a to q = ?/2a. (2 points) 试绘出角频率?作为波数 q 的函数的草图,范围从 q = ??/2a 到 q = ?/2a。(2 分) An electromagnetic wave is incident on the crystal. Which frequency mode will be excited? (1 point) 有电磁波入射到晶体。哪种频率模式会被激发?(1 分) 《THE END 完》
4

(c) (d)

(e)

(f)

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

Pan Pearl River Delta Physics Olympiad 2015 2015 年泛珠三角及中华名校物理奥林匹克邀请赛 Sponsored by Institute for Advanced Study, HKUST 香港科技大学高等研究院赞助 Part-2 (Total 2 Problems) 卷-2(共2 题) (2:00 pm – 5:00 pm, 25 February, 2015) 1. Exoplanet Microlensing (25 points) 系外行星的微透镜效应 (25 分) With the discovery of planets orbiting around stars in recent years, the observation of exoplanets from astronomical distances became a challenge to scientists. Gravitational microlensing is one of the detection methods. It makes use of Einstein’s discovery in general relativity that when a light ray passing near a spherically symmetric body of mass M, its direction will be deflected towards the body by a small angle given by 随着近年发现不少绕着恒星运行的行星,怎样观察相隔天文距离的系外行星便成为科学家 的挑战。引力微透镜是其中一种检测方法。它利用爱因斯坦在广义相对论里发现的原理, 就是当光线经过一个质量为 M 的球对称物体时,方向会朝向物体偏转,偏转的小角度为
? ?
4 GM rc
2

,

where G is the gravitational constant, c is the speed of light, and r is the distance of closest approach of the light ray to the body. In this problem, we will study the principle of detecting exoplanet by microlensing. 其中 G 是万有引力常数,c 是光速,r 是光线和物体的最短距离。在这个问题中,我们将 研究通过微透镜效应探测系外行星的原理。 (a) Consider a distant star S located at a distance Ds from Earth E, acting as the light source. Another star L of mass M and located at distance Dl (< Ds) from Earth acts as the lens. The lines EL and ES make a small angle ? between them. Construct the following sketch in the answer book: (a1) the line EL, (a2) the line ES, (a3) the distances Dl and Ds, (a4) the angle ? (remark: although this angle is small in practice, it should not be drawn too small for the purpose of clarity), (a5) a line perpendicular to EL through L, acting as the gravitational lens, (a6) the light ray from S to E, assuming that each of the segments between S and the lens and that between the lens and E are straight lines, (a7) the deflection angle ?, (a8) the apparent angle ? of the star S as observed on Earth (relative to line EL). (3 marks) 考虑一个遥远的恒星 S,离地球 E 的距离为 Ds,作为光源。另一颗恒星 L,质量为 M, 离地球的距离为 Dl(< Ds),作为透镜。线 EL 和 ES 间的小角度为?。试在答题簿上 绘出以下草图:(a1)线 EL,(a2)线 ES,(a3)距离 Dl 和 Ds,(a4)角度?(注: 虽然该角度实际上很小,但为清楚起见,不应把它绘得太小),(a5)一条垂直于 EL 而通过 L 的线,作为引力透镜,(a6)从 S 到 E 的光线,假定 S 和透镜之间的线段及 透镜和 E 之间的线段各可视作直线,(a7)偏转角?,(a8)从地球观察星 S 的视角? (相对于线 EL)。 (3 分) (b) Derive an equation for the angle ? in terms of the parameters Ds, Dl, G, M, c and ?, assuming that all angles are small. (3 points) 试推导?的方程式,以参数 Ds, Dl, G, M, c 和 ?表达,可假设所有角度都很小。(3 分)
1

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(c) Consider the case that the lens is exactly aligned with the source (? = 0). The image of S appears to be a ring known as an Einstein ring. Derive the expression for the angular radius ?E of the Einstein ring. (2 points) 考虑透镜与光源对準的情况(? = 0)。 S 的影象呈环形,称为爱因斯坦环。试推导爱 因斯坦环的角半径?E 的表达式。 (2 分) (d) Calculate the Einstein radius for the following typical values: 试以下列的典型值,计算爱因斯坦半径: M = 0.3 solar mass, Ds = 10 kpc. Dl = 3 kpc. Give your answer in milli-arc-seconds. You may use the following constants: 请以 milli-arc-seconds 表达你的答案。您可以使用以下参量: G = 6.67 ? 10?11 Nm2kg?2, 1 solar mass = 1.99 ? 1030 kg, c = 3 ? 108 ms?1, 1 kpc = 3.09 ? 1019 m, 1 radian = 206265 arc seconds. (1 point) (1 分) (e) When the lens and the source are not exactly aligned, there will be two images of S. It is convenient to express the angles ? and ? in multiples of the Einstein radius ?E. Hence we define
u ?

? ?E

and

y ?

? ?E

. Derive the expressions for the angular positions y of the two

images in terms of u. (2 points) 当透镜和光源不完全对齐时,S 将有两个影像。为方便起见,我们以爱因斯坦半径?E 的倍数表达角? 和?。因此我们定义 u (f)
?

? ?E

和y

?

? ?E

。试推导两个影像的角位置 y,以

(g)

(h)

(i)

u 表示。(2 分) To study the effect of the finite size of star S, we introduce Cartesian coordinates on the plane normal to ES and through S, with the y axis lying in the plane containing E, L and S. Consider the corners (0, u + ?) and (?, u) of a square on the surface of star S (? << u). Calculate the coordinates of the two corners of the two images when viewed from Earth. (2 points) 为研究星 S 有限大小的影响,我们在垂直于 ES 和通过 S 的平面上,引入一平面直角 坐标,其中 y 轴位于包含 E,L 和 S 的平面中。考虑星 S 表面上一个正方形的角(0, u + ?) and (?, u) (? << u)。试计算从地球观察时,这两个影像的两个角的坐标。(2 分) Calculate the areal magnifications of the two images of star S in terms of u. Following the practice in astronomical observations, give your answer in absolute values. (2 points) 试计算星 S 的两个影像的面积放大率,请以 u 表达。按照天文观测的习惯,请以绝对值为答 案。(2 分) In practice, since the images cannot be resolved, astronomers measure the sum of the magnifications of the two images. Derive the expression for the total magnification. Describe its behavior when star S is remote (u approaches infinity) and when S approaches perfect alignment with L and E (u approaches 0). (3 points) 实际上,由于影象不易分辨,天文学家只测量两个影像的放大率的总和。试推导总放 大率的表达式。试描述星 S 在远处时(u 趋近无穷大),及星 S 趋近对準 L 与 E 时(u 趋近 0),总放大率的行为。(3 分) A planet P of star L has mass m and is located in the plane of E, L and S at the same distance Dl from Earth. EP and EL makes an angle ?p. Derive an equation for the angle ? taking into account the gravitational lensing effects of both star L and planet P. Expressions in the
2

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

equation should be written in terms of the parameters Ds, Dl, G, M, c, ?, m and ?p, assuming that all angles are small. Simplify the equation by introducing the mass ratio rescaled positions
up ?
q ? m M

and the

?

p

?E

,

u ?

? ?E

,

y ?

? ?E

. (3 points)

星 L 旁有一行星 P 位于 E、L 和 S 的平面上,其质量为 m,与地球距离跟星 L 同为 Dl, EP 与 EL 间角度为?p 。考虑到星 L 和行星 P 两者的引力透镜作用,试推导角?的方程 式,式中的表达式应以 Ds、Dl、G、 M、 c、?、 m 和?p 表达。可假设所有角度都很小。 引入质量比 q
? m M

和重整位置 u p

?

?

p

?E

,

u ?

? ?E

,

y ?

? ?E

,以简化方程式。(3 分)

(j) In typical exoplanet detections, there is a motion of star S relative to star L. As star S approaches the closest distance to star L and moves away, u decreases with time to a minimum value u0 and increases again. By plotting the magnification of the image of star S versus time, one observes a smooth and relatively broad peak in the magnification curve due to gravitational lensing by star L. In addition, one can observe a side peak due to the presence of the planet. For q << 1, estimate the width of this side peak, that is, the range of u in which the side peak is significant. (1 point) 在典型的系外行星检测中,星 S 对于星 L 有相对运动。星 S 趋近星 L 至最短距离,然 后离开,过程中 u 随时间降到最小值 u0 然后再增加。把星 S 影像的放大率与时间的关 系绘成图表,放大率曲线上可以看到一个平滑和较宽的主峰,是由星 L 的引力透镜作 用形成的。另外,我们可以观察到一个侧峰,是由行星形成的。对于 q << 1,试估计 这个侧峰的宽度,也就是可以显著看到侧峰的 u 数值范围。 (1 分) (k) For q << 1, consider the situation that light rays pass very near to planet P, so that the gravitational lensing by star L becomes relatively insignificant. Calculate the position of star S where the total magnification of its image diverges, and the behavior of the total magnification in the neighborhood of this location. (3 points) 当 q << 1 时,考虑光线非常靠近行星 P 的情况,在这情况下星 L 的引力透镜作用相对 很弱。试计算当星 S 图像的总放大率发散时星 S 的位置,和这位置附近总放大率的行 为。(3 分) 2. Cosmic Gravitational Waves (28 points) 宇宙引力波(28 分) In March 2014, scientists operating gravitational wave detectors in the South Pole claimed that they found evidences of gravitational waves originated from the early universe in the cosmic microwave background radiation. While the evidence is still being debated, it is interesting to understand how gravitational waves interact with electromagnetic (EM) waves. To approach this issue, we start by considering how molecules scatter EM waves. 2014 年 3 月,操作南极引力波探测器的科学家,声称在宇宙微波背景辐射中,发现来自 早期宇宙的引力波的证据。虽然证据还存在争议,但了解引力波如何作用于电磁(EM) 波是一个有趣的课题。为了处理这个问题,我们首先考虑分子是如何散射电磁波。 (a) An oscillating electric dipole consists of charges oscillating at an angular frequency ?. Specifically, the charges are Q(t) = ?Q0cos?t, located at (x, y, z) = (0, 0, ?s) respectively. What is the current between them? (1 point)
3

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

一个振动的电偶极子,包含以角频率 ?振动的电荷。具体来说,电荷分别为 Q(t) = ?Q0cos?t, 位于(x, y, z) = (0, 0, ?s)。它们之间的电流是什么? (1 分) (b) In spherical coordinates, we denote the components of the magnetic field as Br, B? and B?, as shown in figure (A). Calculate B?(r, ?, t) according to Biot-Savart’s law at time t and distance r from the origin making an angle ? with the z axis. Note that due to the finite speed of light c, the magnetic field at a distant location is due to the time-changing current at an earlier instant. Hence the retarded magnetic field takes the form B ( r , t ) ? B 0 ( r ) cos( ? t ? kr ? ? ) , where
k ?

?
c

is the wavenumber, and ? is the phase shift. Express your answer in terms of the

magnitude of the dipole moment p ? 2Qs in the limit s approaches 0. Below, your answer to this part will be denoted as BBS(r, ?, t). (3 points) 在球坐标中,我们以 Br, B? 和 B?,表示磁场的分量,如图(A)所示。根据毕奥 - 萨伐 尔定律,试计算磁场 B?(r, ?, t),其中 r 为位置与原点的距离,?为位置与 z 轴形成的角, t 为时间。注意,由于光以有限速率 c 传播,在远处的磁场是源于某一较早时刻的电流 (电流随时间变化)。因此, 延迟 磁场的形式为 B ( r , t ) ? B 0 ( r ) cos( ? t ? kr ? ? ) ,其中
k ?

?
c

是波数,而?是相移。答案请以偶极矩 p ? 2Qs 表达(取 s 趋于 0 的极限)。下

面,你在这部的答案将被表示为 BBS(r, ?, t)。(3 分) (A) z Br (B) dr

B?

? ?

r

B? y

r

?

d?

x (c) However, Biot-Savart’s law is only applicable to steady state currents. It is incomplete even after including the retarded nature of the oscillating current. By considering the wave nature of the magnetic field, the complete expression of the magnetic field is given by 但是,毕奥 - 萨伐尔定律只适用于稳态电流。甚至考虑了振动电流的滞后性质后,它 还是不完整的。通过考虑磁场的波动性,完整的磁场表达式是
B ( r , ? , t ) ? B BS ( r , ? , t ) ? B wave ( r , ? , t ),

where 其中
B
wave

( r ,? , t ) ?

? r ?? dl ? r ? I ? t ? ?? . ? ? 4 ? c ? ? dt ? c ?? r

?0 ? ? d

Derive an expression for the B? component of Bwave at (r, ?, t). (3 points) 试推导 Bwave 在 (r, ?, t)的 B? 分量的表达式。(3 分)
4

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(d) Compare the amplitudes of BBS and Bwave at large distance r. Derive the condition of r such that BBS becomes negligible when compared with Bwave. (2 points) 比较 BBS 和 Bwave 在距离 r 很大时的幅度。试推导 BBS 相比 Bwave 变得微不足道时,关于 r 的条件。(2 分) (e) At large distance r, the electric field at (r, ?, t) is mainly due to the electromagnetic induction by the magnetic field Bwave. By considering the electromotive force along the circuit shown in figure (B), derive the relation between
? B? ?t

?E? ?r

and

? B? ?t

. Here,

?E? ?r

is known as the partial

derivative of E? with respect to r, meaning that other variables such as ? and t are considered fixed. Similarly, is the partial derivative of B? with respect to t, with other variables

such as r and ? being fixed. You may assume that only the E? component of the electric field is significant at large distance r. (3 points) 在距离 r 很大时,在(r, ?, t)的电场主要是源于 Bwave 的电磁感应。通过考虑沿著图(B) 中闭路的电动势,试推导
?E? ?r



? B? ?t

之间的关系。这里,

?E? ?r
?t

被称为 E?相对于 r 的偏 是 B?相对于 t 的偏导数,

导数,意味着其他变量如? 和 t 被假定为固定的。同样地,

? B?

当中假定其他变量如 r 和? 为固定的。你可以假设在距离 r 很大时,电场仅有 E?分量 是显著的。(3 分) (f) At large distance r, the electric field is given by points) 在距离 r 很大时,电场为 E ? ( r , ? , t )
? A (? ) r cos( ? t ? kr ) E ? (r ,? , t ) ? A (? ) r cos( ? t ? kr )

. Find A(?). (2

。试找出 A(?)。(2 分)

(g) The magnitude and direction of the power per unit area of the EM wave are given by the Poynting vector. Calculate the time-averaged power per unit area at large distance r. This will be denoted as the radiation intensity I(r). (3 points) 电磁波每单位面积传播功率的大小和方向,是由 Poynting 矢量给定的。试计算在距离 r 很大时,每单位面积按时间平均的传播功率。这将被表示为辐射强度 I(r)。(3 分) (h) When an EM wave is incident on a molecule, its electric field E will drive the molecule into an oscillating dipole moment given by p = ?E, where ? is the polarizability of the molecule. In turn, the oscillating dipole will radiate power. This is called a scattering process. Consider an EM wave incident from the x direction, given by Ei = Ex0cos(?t ? kx). If Ex0 is polarized at an angle ?x with the z axis, calculate: 当电磁波射向一分子时,其电场 E 会使该分子产生振动偶极矩 p = ?E,其中?是该分 子的极化度。随之振动偶极子会辐射功率。这就是所谓的散射过程。考虑电磁波从 x 方向入射,由 Ei = Ex0cos(?t ? kx)给出。若 Ex0 的偏振方向与 z 轴成角度?x,试计算: (h1) the intensity Ix(r) of the radiation scattered to the z direction, 散射至 z 方向的辐射强度 Ix(r), (h2) the electric field polarization of the scattered wave along that direction, 沿该方向的散射波的电场偏振方向,
5

2015 年泛珠三角及中华名校物理奥林匹克邀请赛

Pan Pearl River Delta Physics Olympiad 2015

(h3) the intensity ?Ix(r)? of the radiation scattered to the z direction for an unpolarized incident beam (that is, the polarization angle ?x has a uniform distribution). (3 points) 非偏振入射光束(即偏振角?x 均匀分布)散射至 z 方向的辐射强度?Ix(r)?。(3 分) (i) Next, consider an EM wave incident from the y direction, given by Ei = Ey0cos(?t ? ky). If Ey0 is polarized at an angle ?y with the z axis, calculate: 接下来,考虑电磁波从 y 方向入射,由 Ei = Ey0cos(?t ? ky)给出。若 Ey0 的偏振方向与 z 轴成角度?y,试计算: (i1) the electric field polarization of the scattered wave along the z direction, 沿 z 方向的散射波的电场偏振方向, (i2) the intensity ?Iy(r)? of the radiation scattered to the z direction for an unpolarized incident beam (that is, the polarization angle ?y has a uniform distribution). (2 points) 非偏振入射光束(即偏振角?y 均匀分布)散射至 z 方向的辐射强度?Iy(r)?。(2 分) (j) During the rapid expansion of the early universe, gravitational waves are formed. They consist of quadrupolar temperature oscillations,meaning that the directions of the maxima and minima of the oscillations are separated by an angle of ?/2. Hence to analyze their effects on EM waves, we consider two incoherent incident beams of EM waves of the same frequency ?/2?, one from the x direction and the other from the y direction. The amplitudes of their electric fields are Ex0 and Ey0 respectively. Suppose the EM radiations in the x and y directions correspond to temperatures T + ?T and T respectively (?T << T and is positive). What is the ratio
I x (r ) I y (r )

? (1 point)

早期宇宙的迅速膨胀,形成引力波。它引起温度的振动,呈四偶极分布。这意味着振 动的最大值和最小值的方向以 ?/2 角度分开。因此,要分析它们对电磁波的影响,我 们考虑两束频率同为?/2?的非相干入射光,一束来自 x 方向,另一束则来自 y 方向, 其电场的幅度分别是 Ex0 和 Ey0。假设在 x 和 y 方向的电磁辐射分别对应于温度 T + ?T 和 T(?T << T,且是正的)。比例
I x (r ) I y (r )

是什么? (1 分)

(k) The degree of polarization of the scattered radiation is given by 下式是散射辐射的偏振度
? ? I x (r ) ? I y (r I x (r ) ? I y (r .

Calculate ?. What is the direction of the electric field polarization in the scattered wave? (2 points) 试计算?。散射辐射中电场的偏振方向是什么?(2 分) 《THE END 完》

6


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