Table of Content

03 November 2025 Volume 44 Issue 8

  

Quantenmechanik：Produkt aus G-ttingen

CAO Zexian

College Physics. 2025, 44(8):  1.  doi:10.16854/j.cnki.1000-0712.250210

Abstract ( 166 )   PDF (1747KB) ( 161 )  

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Although the wave mechanics was developed by Austrian Schrdinger in Swiss and the relativistic quantum equation was derived by British Dirac, yet we can safely say that quantum mechanics is a product of Gttingen, a conclusion easy to arrive when the relevant ideas, concepts and methodology are evaluated in an objective manner. It is Riemann who first introduced in 1854 the concept of Quanta into geometry, and in publications of Wien in the period of 1893-1900 the concepts such as Energiequantum (energy quantum)， Arbeisquantum (work quantum), Wrmequantum( heat quantum) were to be seen frequently. Sommerfeld, one who created the atomic physics with his many gifted disciples, completed his Habilitation under Klein, and the concept of bermechanik (Supermechanics) proposed by him in 1919 can be understood as the precursor of quantum mechanics. Born lectured in 1923/1924 over Atommechnik (atom mechanics), and coined the word Quantenmechanik (quantum mechanics) in a paper in 1924. At the same year, the book Methoden der mathematischen Physik coauthored by Hilbert and Courant was published, and in the preface Courants assistant Jordan was acknowledged. In 1925, inspired by Heisenbergs quantum theoretical formulation of the Kramers dispersion relation, Born and Jordan, the latter just got his Ph.D. degree under Born, constructed the matrix mechanics. Born was familiar with matrix algebra since in 1908 Minkowski had let Toeplitz to teach him that subject to prepare for his research over relativity. Jordan later initiated the research over quantum field theory and quantum biology. In 1926, Born put forward the probability interpretation to Schrdingers wavefunction. In 1927, Heisenberg published his seminal paper over the uncertainty principle, von Neumann began his effort to axiomatize quantum mechanics, Weyl taught and researched on group theory and quantum mechanics in Zurich, and Wigner also began to explore the application of group theory in quantum mechanics. All these heroes of quantum mechanics are graduate student and/or staff member of University Gttingen, and they all benefited from the mathematical tradition of Gttingen that had been established by Gauss, Riemann, Klein, Hilbert, Minkowski, etc. The basic concepts in quantum mechanics such as eigenvalue problem, eigenvalue spectrum of operators, vector space and so on are all originated in Gttingen. In a word, quantum mechanics, a branch of mathematical physics full of philosophical color, is, and it can only be, the product of Gttingen.



Astronomy education II: compact stars going towards the singularity

LIU HeLei1, Xu Renxin2, 3

College Physics. 2025, 44(8):  8.  doi:10.16854/j.cnki.1000-0712.250103

Abstract ( 56 )   PDF (694KB) ( 41 )  

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 It is clear from the singularity theorem that the formation of black holes is inevitable in the Universe, but the path from massive stars to black holes cannot be “smooth” under their own gravity. By analyzing the balance between the internal and gravitational energy of stars, the process from main sequence star to compact star (white dwarf, neutron star and black hole) is discussed in general, and the semi-quantitative relationship between the accumulated internal energy per baryon (ε) and the stellar radius (R) is also presented. During a stars journey towards the singularity (R→0), there are three stages that prevent it from gravitational collapse, corresponding to the internal energy per baryon of ε ~keV(main-sequence stars), ~MeV (white dwarfs) and ~100 MeV (neutron stars). For black holes，R→0, ε→∞. Finally, the basic physical properties of compact stars and their impact on the modern astrophysics, as well as the education of stellar astronomy, are briefly reviewed.



Experimental Design of Field Ion Microscope

WU Bingrui, FAN Xin, ZHENG Changxi

College Physics. 2025, 44(8):  15.  doi:10.16854/j.cnki.1000-0712.240487

Abstract ( 56 )   PDF (1197KB) ( 37 )  

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Tungsten tip electron source, microchannel plate, phosphor screen, high voltage source, and Ultra High Vacuum Chamber are used to build up the Field Ion Microscope in this paper. By setting up the system and detailed describing the operating process, guide students to complete experimental procedures such as tip preparation and modification, field ion imaging, and liquid nitrogen cooling. The experiment shows that by liquid nitrogen cooling the resolution of FIM can be improved sufficiently which provides higher clarity images for atomic-level imaging and manufacturing.



Energy variation and output work in the volume expansion of quantum systems

MAO Changrong 1, CHU Yufang2, XIE Fang2, LEE Chern2

College Physics. 2025, 44(8):  19.  doi:10.16854/j.cnki.1000-0712.240439

Abstract ( 60 )   PDF (1044KB) ( 36 )  

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 In classical systems, when the volume occupied by a free particle expands, positive work is always done on the surroundings. However, under the same conditions, the expansion of a quantum system does not necessarily result in positive work; this depends on the speed of the expansion. This paper explores the characteristics of the work output during the finite uniform expansion of the walls of an infinite potential well. The calculations show that the faster the walls of the potential well move, the smaller the total work output.




Analysis on density of state 

LV Li1, ZHOU JianPing2

College Physics. 2025, 44(8):  22.  doi:10.16854/j.cnki.1000-0712.240455

Abstract ( 80 )   PDF (910KB) ( 34 )  

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 Density of states is an important concept in solid-state physics and a crucial parameter in research related to solids. Both electrons and phonons have their density of states. This article introduces the density of states of electrons and phonons with mathematical language, as well as their related band structures and dispersion relations. These basic concepts can be understood deeply through some examples.



The dimension of the Dirac δ function

WANG Huaiyu

College Physics. 2025, 44(8):  29.  doi:10.16854/j.cnki.1000-0712.250047

Abstract ( 114 )  

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The author points out that the Dirac δ function can be of physical dimension. The dimension of the function is the reciprocal of the dimension of its argument.



Discussion on thequality factor of resonant systems

College Physics. 2025, 44(8):  31.  doi:10.16854/j.cnki.1000-0712.250266

Abstract ( 62 )   PDF (602KB) ( 40 )  

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The quality factor, as a dimensionless parameter quantifying the energy storage efficiency relative to dissipation in resonant systems, holds extensive and profound application value across diverse domains including circuit resonators, optical microcavities, mechanical oscillators, and nonlinear dynamics.However, contemporary university physics curricula predominantly limit the presentation of quality factor to conceptual descriptions, lacking


The fastest motion of an object in a curved earth tunnel ——revisiting the Earth Tunnel Problem using python visualization toolkit

FANG Ning, LIANG Chengtian

College Physics. 2025, 44(8):  35.  doi:10.16854/j.cnki.1000-0712. 240511

Abstract ( 58 )   PDF (747KB) ( 49 )  

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This paper introduces the historical and practical significance of studying the brachistochrone problem and delves into the fastest motion of objects in a curved Earth tunnel. By establishing a mathematical model, the analytical expression of the brachistochrone curve is derived, and the physical meaning of the integral constant C is analyzed. The study reveals that curved tunnels, under certain conditions, can provide shorter transit times than straight tunnels, challenging intuitive perceptions. Further analysis yields the relationships among various physical quantities in the brachistochrone model, including the angular coordinate difference θab, the integral constant C, and the required transit time T. Additionally, with the assistance of Python visualization tools, this paper effectively presents graphical representations of the fastest paths in the model and illustrates the trends in the interrelationships among the physical quantities. This approach helps students better grasp the core concepts of the brachistochrone problem and the relationships between the various physical quantities involved in the model, fostering their ability to analyze and solve complex physical problems while building a clear physical picture and a comprehensive understanding．



Transverse ElectroOptic Effect Simulation of Lithium Niobate  Crystals on Mathematica

LIU Zhigang, HU Xihe, FAN Haibo, YANG Zhanying

College Physics. 2025, 44(8):  40.  doi:10.16854/j.cnki.1000-0712.250217

Abstract ( 68 )   PDF (1204KB) ( 45 )  

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 Electrooptic effect of crystals is very important in modern physics experiment, which involves refractive index of crystals changed by extra electric field, so it is abstract and difficult for students.The phenomenon that index ellipsoid of crystals and interference can be changed by extra electric field is shown by computer simulation in this paper, and many important concepts such as halfwave voltage, direct current modulation and active current modulation is clearly explained, which plays a helping role in teaching and studying of this experiment.



Measurement of lowtemperature thermal conductivity of materials using  liquid nitrogen as a constanttemperature cold source

JIN Yuanwei

College Physics. 2025, 44(8):  46.  doi:10.16854 /j.cnki.1000-0712.240444

Abstract ( 50 )   PDF (1207KB) ( 17 )  

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In college physics experiments, steadystate method, quasisteadystate method, and constant power heat source method are commonly used to measure the thermal conductivity of materials under normal and hightemperature conditions. However, the measurement of thermal conductivity of materials under lowtemperature conditions is not typically covered in college physics experiments. Based on the unsteady heat conduction theory for onedimensional semiinfinite objects under the firsttype boundary condition, using liquid nitrogen as a constanttemperature cold source, a device was designed to continuously measure the thermal conductivity of materials at low temperatures within a wide range，which provide a new approach for measuring the thermal conductivity of materials at low temperatures. Taking the measurement of the lowtemperature thermal conductivity of ice columns made of pure water as an example, the experimental principle, method, and device were elaborated in detail, and the measurement data were analyzed. The thermal conductivity of ice was measured within the temperature range of 10.49°C to 126.70°C. Due to the deviation of the correction model and the heat leakage of the device, the rate of change of thermal conductivity with temperature is higher than the reference value. It is hoped that further optimization of the experimental methods and devices will be carried out to improve the accuracy of experimental measurements.



Research progress on the Mpemba effect

CHEN Xuanqing1, LUO Yichen1, TIAN Zhuangzhuang1, ZHOU Tiexiang1, HOU Yidong1, 2

College Physics. 2025, 44(8):  50.  doi:10.16854/j.cnki.1000-0712.240508

Abstract ( 76 )   PDF (1011KB) ( 51 )  

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Water is one of the most common substances in nature and the foundation for the survival of Earth’s carbon-based life forms. Although water molecules and their related physical and chemical effects have been extensively studied, many peculiar phenomena caused by water still cannot be scientifically explained. The Mpemba effect is one typical example. In 1969, Mpemba and Dr. Denis Osborne reported in the British journal “Physics Teacher” that, under the same mass and cooling conditions, water with a higher initial temperature freezes before water with a lower initial temperature. This phenomenon, which seems to defy thermodynamic common sense, has received long-term and widespread attentions. However, due to the complexity of this phenomenon, the academic community has not been able to provide a scientifically rigorous explanation so far. Given the widespread impact of the Mpemba effect on daily production and life, this article summarizes the possible causes and influencing factors based on reported research results, aiming to present a systematic progress in research and enhance readers’ understanding of the Mpemba effect.



A novel representation of the Ohm’s law in the electromagnetism based on the comparative textbook method

XIA Wei1, MAO Hong2

College Physics. 2025, 44(8):  60.  doi:10.16854/j.cnki.1000-0712.250209

Abstract ( 65 )   PDF (555KB) ( 39 )  

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 By taking a problem in a textbook of electromagnetism as a typical example, we firstly identify that the definition of the area S in the general formula for resistor is not clearly specified.In comparison with three popular textbooks of the electromagnetism written by Liang Canbin, Zhao Kaihua, and Hu Youqiu, we notice that the teaching of Ohm’s Law in existing electromagnetism textbooks mostly follows the road of “the experiment→the formula→the microscopic mechanism.” Moreover, in a traditional classroom, educators often ignore the importance of the knowledge framework and theoretical derivation, so that it is difficult for students to understand the essential element of the physical conceptions and the basic principle.In order to improve the presentation of the Ohm’s Law in electromagnetism, we offer a novel constructive way to teach the Ohm’s Law by focusing on its differential form.It has been proved more convenient and effective for students to learn the background mechanism and physical principle of the law if we start with the differential form rather than the traditional form.Moreover, through the differential form, we can easily derive the general formula for the calculation of the resistor and the result of Joule’s Law.Therefore, our approach established in this work is an upgrade to the existing instruction with a renewal teaching logic from “the fundamental principle→physical laws.” At last, after clarifying the definition of the area S in the general formula for resistor, we can also prove that the solution for current I is independent of the shape of the surface.






with an emphasis on cultivating higher-order thinking skills

XIAO Luo1, 2, XIAO Cunying1, 2

College Physics. 2025, 44(8):  67.  doi:10.16854/j.cnki.1000-0712.250181

Abstract ( 52 )   PDF (671KB) ( 31 )  

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Driven by the rapid development and application of artificial intelligence technologies, the development of higher-order thinking skills has become a central metric in evaluating educational quality.As a fundamental discipline investigating the laws and nature of thermal phenomena, Thermal Physics demonstrates unique value in cultivating students’ higher-order thinking skills.This paper systematically elucidates innovative approaches and practical outcomes in Thermal Physics curriculum reform: Guided by higher-order thinking skills development objectives, we established a teaching framework integrating “cognitive progression, context-based learning, and multi-dimensional assessment”.Post-reform data reveals significant improvements in students’ assignment achievement rate, learning engagement, course satisfaction, as well as analytical and synthetic skills, demonstrating the reform’s progressive effectiveness in advancing higher-order thinking development.






Measurement design for Hall sensitivity using Hall effect

CHU Xiaoling, XU Ning, WU Feng

College Physics. 2025, 44(8):  74.  doi:10.16854/j.cnki.1000-0712.240590

Abstract ( 77 )   PDF (607KB) ( 21 )  

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In traditional Hall effect experiments for Hall sensitivity measurement, 4 side effects are usually considered. Based on the experimental data, the influence of side effects on the accuracy of Hall sensitivity is valuated. It is confirmed that the voltage drop due to unequal potential is most prominent, while other side effects are negligible. Furthermore, considering that the Hall voltage and the voltage drop due to unequal potential vary differently with the magnitudes of the working current and the external magnetic field, two new schemes, i.e., applying linear least squares method and binary quadratic nonlinear model, respectively, for measuring Hall sensitivity are proposed. Then, the strategy for eliminating system errors with symmetric measurement method in the traditional experiment is improved to a strategy of solving problems from differences.






Exploration and practice of ideological and political education in  college physics for local universities

DING Lilei

College Physics. 2025, 44(8):  80.  doi:10.16854/j.cnki.1000-0712.240606

Abstract ( 59 )   PDF (657KB) ( 26 )  

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University physics, as a fundamental course for science and engineering majors, contains rich natural ideological and political elements and has a natural educational function.The article takes the ideological and political education of university physics courses in local undergraduate colleges as the research object, with the goal of integrating ideological and political education into professional knowledge teaching.By reviewing the current research and practice status of ideological and political education in university physics courses, the overall framework of ideological and political education construction in university physics courses is designed from the aspects of establishing ideological and political objectives, mining and integrating ideological and political elements, selecting teaching methods, and producing results.Specific designs are also made on how to organically integrate ideological and political elements into teaching content.After several years of exploration and practice in curriculum ideological and political reform, a synergistic effect has gradually formed between college physics knowledge teaching and ideological and political education.



College physics experiment teaching based on students’major:  a case study of “optic polarization experiments”

DING Tao, WANG Xiaofeng

College Physics. 2025, 44(8):  86.  doi:10.16854/j.cnki.1000-0712.240567

Abstract ( 78 )   PDF (711KB) ( 42 )  

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How to stimulate college students interest and enthusiasm for "College Physics Experiments" is an important issue currently faced in College physics education reform. Reshaping the "College Physics Experiments" syllabus based on students professional backgrounds is a crucial approach to overcome such difficulty. This case study uses the "Light Polarization Experiment" as an example. Building upon the basic requirements of standardized experimental projects in college physics, it introduces advanced polarization optics experiments that align with students majors and vector polarization optics experiments related to cutting-edge research. It also adds after-class extension experiments closely connected to real life. The teaching method adopts a blend of virtual and real scenarios, using situational inspiration. It organically integrates ideological and political elements into the experimental teaching process, stimulating students learning interest, cultivating a rigorous and pragmatic scientific attitude, and fostering a spirit of exploration and innovation. This approach has developed students scientific enthusiasm and research potential, fully embodying the guiding ideology of "three-integrity education" and the teaching design concept of “high-leveled, innovative and challenging characteristics”. It is highly extendable and exploitable, which has received positive feedback from students.



A study of periodic structure diffraction based on a projector liquid  crystal screen and line array CCD

YOU Chengkun1, HAO Zhonghua1, WANG Xiaofeng1, 2

College Physics. 2025, 44(8):  93.  doi:10.16854 /j.cnki.1000-0712240551

Abstract ( 54 )   PDF (1011KB) ( 21 )  

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Diffraction grating experiment is a basic optical experiment in university physics, which can be used to measure grating constant, wavelength of light and other physical quantities. In this paper, the projector LCD screen is used to replace the grating in the diffraction grating experiment, by designing a series of gradient grating pictures and displaying them on the LCD screen, and measuring the relative light intensity and position information with a line array CCD, which is in good conformity with the theoretical results. The experimental device is inexpensive, simple in theory and intuitive in phenomena, and can be used as an optical demonstration device for theoretical and experimental classes. 






Analysis on the commonalities of the physics education thoughts of Mr. Zhao  Kaihua and Feynman and their enlightenments

HAN Jiajia, ZHANG Hui, SHI Bo, ZHANG Changjiang, HUANG Lingling

College Physics. 2025, 44(8):  98.  doi:10.16854/j.cnki.1000-0712.250002

Abstract ( 46 )   PDF (537KB) ( 29 )  

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Both Mr. Zhao Kaihua and Feynman are masters of physics education. This paper focuses on the physics education thoughts of the two masters. Through the methods of literature research and comparative analysis, it analyzes the common characteristics in their physics education thoughts from five aspects: the establishment of physical concepts, the importance of scientific knowledge-seeking methods, the connection of frontier contents in physics, the interest of physical knowledge and the cultivation of curiosity and exploratory spirit, and draws the enlightenment for current physics teaching and provides a reference for optimizing teaching.



Cherishing the memory and following the footsteps of the master --- Two or three memories of my friendship with Professor ZHAO Kai-Hua

ZHAO Jian

College Physics. 2025, 44(8):  106.  doi:10.16854/j.cnki.1000-0712.240560

Abstract ( 32 )   PDF (538KB) ( 23 )  

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In this article I cherish the memory of Professor ZHAO Kai-Hua and share several precious stories about my friendship with him.



In memory of Mr. Kaihua Zhao, a dedicated educator in physics

YU Yin1, XU Yifang1, SONG Feng2

College Physics. 2025, 44(8):  111.  doi:10.16854/j.cnki.1000-0712.240603

Abstract ( 41 )   PDF (630KB) ( 21 )  

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 In this work, we discuss Mr. Zhao Kaihuas contributions to physics education in China and his far-reaching influence. By analyzing Mr. Zhaos educational philosophy, integrating his contributions to teaching, and summarizing his academic achievements, it demonstrates Mr. Zhaos refinement and practice of his educational philosophy from both domestic and international perspectives, and highlights his profound insights into physics education. In this way, we explore how his work inspired and influenced subsequent educators and students, and contributed to the field of physics education in China. Mr. Zhao Kaihuas academic achievements and contributions to physics education have made him an indelible name in Chinese physics education. It is sad to see him pass away, but what he left us is not only his profound academic thoughts, but also his love of science and his belief in education. 






In memory of my esteemed mentor, Mr. Zhao Kaihua

LI Fang

College Physics. 2025, 44(8):  116.  doi:10.16854/j.cnki.1000-0712.240581

Abstract ( 40 )   PDF (484KB) ( 12 )  

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This paper pays tribute to Prof. Zhao Kaihua, my graduate tutor. Recalling his rigorous academic guidance to students, he personally taught the "Kinetic Theory of Plasma " during his busy schedule. Praise Prof. Zhaos profound knowledge, deep physics foundation and the spirit of reform that dares to explore. Pay tribute to his open-minded style and noble personality.