OALib Journal期刊

ISSN: 2333-9721




2018 ( 65 )

2017 ( 68 )

2016 ( 84 )

2015 ( 939 )


匹配条件: “Henry Gu Cao” ,找到相关结果约23332条。
Unified Field Theory and the Hierarchical Universe
Zhiliang Cao, Henry Gu Cao
International Journal of Physics , 2013, DOI: 10.12691/ijp-1-6-5
Abstract: Everything from the smallest particle to the grand universe is constructed by Torque Grids. The grand structure of the universe is made up of infinite hierarchical Torque Grids; this theory falsifies Big Bang Theory (BBT) and Black Hole Theory. A Torque Grid is 10^-25 times smaller than an atom, and our universal Torque Grid size is 4.98 * 10^26 m. The Universe is timeless. The configuration of Spiral Arm Galaxy can also be explained by Unified Field Theory.
Unified Field Theory and Topology of Nuclei
Zhiliang Cao, Henry Gu Cao
International Journal of Physics , 2014, DOI: 10.12691/ijp-2-1-4
Abstract: Even though all isotopes for each element are well studied, the structures of their nuclei are still unknown. This paper examines the topology and stability of ground state isotopes of major elements. According to Unified Field Theory (UFT), a proton has the shape of an octahedron. The nuclei result from protons and neutrons piling up. Since the strong forces are along the axes of the octahedron of protons and neutron, the structure of ground state isotopes of any given element can be logically induced. Only two of three axes of the octahedron nucleus have strong interactive forces internally. The structure starts with one or two base squares and accumulates smaller squares along the axis of the base squares in both directions. The possible proton base structures are square shaped. For example, the Technetium nucleus has one proton too many to be symmetrical. Therefore, no stable isotopes of Technetium can be found.
Gravitational Wave and Transparent Crystal Black Hole  [PDF]
Zhiliang Cao, Henry Gu Cao
Open Access Library Journal (OALib Journal) , 2016, DOI: 10.4236/oalib.1103038
This paper uses the results of the latest Unified Field Theory (UFT) and the experimental results of the recent experiments of gravitational wave to study the configuration of a black hole. We conclude that a black hole has no singularity state. Instead, particles in a black hole form a stable system. Topologically, octahedron particles form sphere with two poles. A black hole always releases energy at the poles. If a black hole has an accretion disk, the particles from disk will wrap around the black hole, twist upwards, accelerated by out-going black hole energy at the poles, and ejected out at the top of a pole to form a black hole jet. The predictions made in the paper provide valuable insight regarding the inner workings of the black hole. We hope that our work can help future studies regarding gravitational waves, black hole, and dark energy.
The Trifold Universe  [PDF]
Henry Gu Cao, Zhiliang Cao
Open Access Library Journal (OALib Journal) , 2018, DOI: 10.4236/oalib.1104292
This paper studies a new concept called universal folding. The visible universe is the result of a complex invisible folding series. There are three major folds (Trifold): from the Plank length, to the radius of an electron, and finally, to the radius of universe. Each of the three-major folds follows the same folding formula. Our findings help us understand the grand architecture of the universe. The ideal average human height, city block size, city size, diameter of the continents, the diameter of the Sun, the distance between the Earth and the Sun, the radius of the solar system, the radius of the Milky Way galaxy, the average diameter of the filament of the universe, and the radius of the universe are important resonance lengths in the formula. This paper helps scientists study everything from a new angle and become aware of the architectural design of the universe.
Nuclear Lattices, Mass and Stability  [PDF]
Henry Gu Cao, Zhiliang Cao, Wenan Qiang
Open Access Library Journal (OALib Journal) , 2015, DOI: 10.4236/oalib.1101504
Abstract: A nucleus has a lattice configuration, a mass, and a half-life. There are many nuclear theories: BCS formalism focuses on Neutron-proton (np) pairing; AB initio calculation uses NCFC model; SEMF uses water drop model. However, the accepted theories give neither précised lattices of lower mass nuclei, nor an accurate calculation of nuclear mass. This paper uses the results of the latest Unified Field Theory (UFT) to derive a lattice configuration for each isotope. We found that a simplified BCS formalism can be used to calculate energies of the predicted lattice structure. Furthermore, mass calculation results and NMR data can be used to determine the right lattice structure. Our results demonstrate the inseparable relationship among nuclear lattices, mass, and stability. We anticipate that our essay will provide a new method that can predict the lattice of each isotope without the use of advanced mathematics. For example, the lattice of an unknown nucleus can be predicted using trial and error. The mass of the nuclear lattice can be calculated. If the calculation result matches the experimental data and NMR pattern supports the lattice as well, then the predicted nuclear lattice configuration is valid.
The anti-correlation between the hard X-ray photon index and the Eddington ratio in LLAGNs
Minfeng Gu,Xinwu Cao
Physics , 2009, DOI: 10.1111/j.1365-2966.2009.15277.x
Abstract: We find a significant anti-correlation between the hard X-ray photon index and the Eddington ratio L_Bol/L_Edd for a sample of Low-Ionization Nuclear Emission-line Regions (LINERs) and local Seyfert galaxies, compiled from literatures with Chandra or XMM-Newton observations. This result is in contrast with the positive correlation found in luminous active galactic nuclei (AGNs), while it is similar to that of X-ray binaries (XRBs) in low/hard state. Our result is qualitatively consistent with the spectra produced from advection dominated accretion flows (ADAFs). It implies that the X-ray emission of low-luminosity active galactic nuclei (LLAGNs) may originate from the Comptonization process in ADAF, and the accretion process in LLAGNs may be similar to that of XRBs in the low/hard state, which is different from that in luminous AGNs.
Dynamic Monitoring of Plant Cover and Soil Erosion Using Remote Sensing, Mathematical Modeling, Computer Simulation and GIS Techniques  [PDF]
Z. Y. Zeng, J. Z. Cao, Z. J. Gu, Z. L. Zhang, W. Zheng, Y. Q. Cao, H. Y. Peng
American Journal of Plant Sciences (AJPS) , 2013, DOI: 10.4236/ajps.2013.47180

Dynamic monitoring of plant cover and soil erosion often uses remote sensing data, especially for estimating the plant cover rate (vegetation coverage) by vegetation index. However, the latter is influenced by atmospheric effects and methods for correcting them are still imperfect and disputed. This research supposed and practiced an indirect, fast, and operational method to conduct atmospheric correction of images for getting comparable vegetation index values in different times. It tries to find a variable free from atmospheric effects, e.g., the mean vegetation coverage value of the whole study area, as a basis to reduce atmospheric correction parameters by establishing mathematical models and conducting simulation calculations. Using these parameters, the images can be atmospherically corrected. And then, the vegetation index and corresponding vegetation coverage values for all pixels, the vegetation coverage maps and coverage grade maps for different years were calculated, i.e., the plant cover monitoring was realized. Using the vegetation coverage grade maps and the ground slope grade map from a DEM to generate soil erosion grade maps for different years, the soil erosion monitoring was also realized. The results show that in the study area the vegetation coverage was the lowest in 1976, much better in 1989, but a bit worse again in 2001. Towards the soil erosion, it had been mitigated continuously from 1976 to 1989 and then to 2001. It is interesting that a little decrease of vegetation coverage from 1989 to 2001 did not lead to increase of soil erosion. The reason is that the decrease of vegetation coverage was chiefly caused by urbanization and thus mainly occurred in very gentle terrains, where soil erosion was naturally slight. The results clearly indicate the details of plant cover and soil erosion change in 25 years and also offer a scientific foundation for plant and soil conservation.

Calculated Optical Properties of Dielectric Shell Coated Gold Nanorods

CAO Min,WANG Meng,GU Ning,

中国物理快报 , 2009,
Abstract: Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole approximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell, and surrounding medium on the longitudinal resonance mode is investigated. It is found that the coated dielectric shell does not affect the trend in the dependence of resonance position on the aspect ratio, while it broadens the resonant line width and reduces the sensitivity of plasmon resonance in response to changes of the surrounding medium. Furthermore, the difference of dielectric constants between the shell and surrounding medium plays an important role in determining the resonance position. The screening effect of the dielectric shell tends to be less apparent for a thicker shell thickness.

by GU Songqing,CAO Rongjiang,CHEN Xinmin,

金属学报 , 1987,
Rapid Traversability Assessment in 2.5D Grid-based Map on Rough Terrain
Jiajun Gu,Qixin Cao,Yi Huang
International Journal of Advanced Robotic Systems , 2008,
Abstract: This paper presents a rapid traversability assessment approach based on an extended 2.5D grid-based representaion of the rough terrain. Stereo vision system is used to perceive the environment surrounding robot. Conventional 2D, 3D and other 2.5D grid maps determine the traversability indices of the grids directly from the sensor feedback, while our approach attempts to address the indices of terrain from multiple grids instead. By analyzing the properties of multiple grids that the robot is to traverse, passable grids are distinguished, which also takes the robot's size into account. Fuzzy logic framework is applied to extract traversabiltiy indices from the terrain characteristics. A soccer robot equipped with a stereo vision system is adopted for experiments. The results show that our map is capable of speeding the process of traversability assessment and providing an autonomous mobile robot with a appropriate representation of 3D uneven terrain profile.

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