The synthesis of Helional[1205-17-0]was reported.It involves the hydrogenation of piperonylenepropanal[6974-47-6]from Cinnamomum petrophilum leaves oil catalyzed by 5% Pd/C,without a solvent at 120℃and 0.6-1.0 MPa,an...The synthesis of Helional[1205-17-0]was reported.It involves the hydrogenation of piperonylenepropanal[6974-47-6]from Cinnamomum petrophilum leaves oil catalyzed by 5% Pd/C,without a solvent at 120℃and 0.6-1.0 MPa,and the yield was 98.2%.GC-MS and HNMR was used to characterize the product.展开更多
In an earlier paper, the author employed the thesis that baryons are Yang-Mills magnetic monopoles and that proton and neutron binding energies are determined based on their up and down current quark masses to predict...In an earlier paper, the author employed the thesis that baryons are Yang-Mills magnetic monopoles and that proton and neutron binding energies are determined based on their up and down current quark masses to predict a relationship among the electron and up and down quark masses within experimental errors and to obtain a very accurate relationship for nuclear binding energies generally and for the binding of 56Fe in particular. The free proton and neutron were understood to each contain intrinsic binding energies which confine their quarks, wherein some or most (never all) of this energy is released for binding when they are fused into composite nuclides. The purpose of this paper is to further advance this thesis by seeing whether it can explain the specific empirical binding energies of the light 1s nuclides, namely, 2H, 3H, 3He and 4He, with high precision. As the method to achieve this, we show how these 1s binding energies are in fact the components of inner and outer tensor products of Yang-Mills matrices which are implicit in the expressions for these intrinsic binding energies. The result is that the binding energies for the 4He, 3He and 3H nucleons are respectively, independently, explained to less than four parts in one million, four parts in 100,000, and seven parts in one million, all in AMU. Further, we are able to exactly relate the neutron minus proton mass difference to a function of the up and down current quark masses, which in turn enables us to explain the 2H binding energy most precisely of all, to just over 8 parts in ten million. These energies have never before been theoretically explained with such accuracy, which leads to the conclusion that the underlying thesis provides the strongest theoretical explanation to date of what baryons are, and of how protons and neutrons confine their quarks and bind together into composite nuclides. As is also reviewed in Section 9, these results may lay the foundation for more easily catalyzing nuclear fusion energy release.展开更多
In the present paper, we consider the nucleons in the helium-3 and helium-4 nuclei as tori. These tori rotate with constant angular velocity around an axis, which is perpendicular to the rotation plane and passes thro...In the present paper, we consider the nucleons in the helium-3 and helium-4 nuclei as tori. These tori rotate with constant angular velocity around an axis, which is perpendicular to the rotation plane and passes through the centre of mass of the nuclei. Based on exact analytical expressions for the electrostatic interaction between two spheres with arbitrary radii and charges derived by us recently, we find that the well-known potential binding energy for the helion and for the alpha particle is of electromagnetic character. Using the above mentioned formulae, we find the interaction force in the nuclei under consideration. Our toroid model recovers the basic experimental results not only for the binding energy, but also for the stability, radii, spins and the magnetic moments of the helion and the alpha particle.展开更多
10亿美元的支持投入,7个月内全球范围内2000多家大企业级客户,基于Openstack商用平台的落地和解决方案的推出,惠普Helion一路高歌猛进,直指混合云市场。2015年新年伊始,惠普宣布惠普Helion Open Stack和惠普Helion开发平台在中国正式商...10亿美元的支持投入,7个月内全球范围内2000多家大企业级客户,基于Openstack商用平台的落地和解决方案的推出,惠普Helion一路高歌猛进,直指混合云市场。2015年新年伊始,惠普宣布惠普Helion Open Stack和惠普Helion开发平台在中国正式商用,与此同时,惠普还推出了针对于惠普Helion的第一个优化解决方案——惠普Helion Content Depot。展开更多
文摘The synthesis of Helional[1205-17-0]was reported.It involves the hydrogenation of piperonylenepropanal[6974-47-6]from Cinnamomum petrophilum leaves oil catalyzed by 5% Pd/C,without a solvent at 120℃and 0.6-1.0 MPa,and the yield was 98.2%.GC-MS and HNMR was used to characterize the product.
文摘In an earlier paper, the author employed the thesis that baryons are Yang-Mills magnetic monopoles and that proton and neutron binding energies are determined based on their up and down current quark masses to predict a relationship among the electron and up and down quark masses within experimental errors and to obtain a very accurate relationship for nuclear binding energies generally and for the binding of 56Fe in particular. The free proton and neutron were understood to each contain intrinsic binding energies which confine their quarks, wherein some or most (never all) of this energy is released for binding when they are fused into composite nuclides. The purpose of this paper is to further advance this thesis by seeing whether it can explain the specific empirical binding energies of the light 1s nuclides, namely, 2H, 3H, 3He and 4He, with high precision. As the method to achieve this, we show how these 1s binding energies are in fact the components of inner and outer tensor products of Yang-Mills matrices which are implicit in the expressions for these intrinsic binding energies. The result is that the binding energies for the 4He, 3He and 3H nucleons are respectively, independently, explained to less than four parts in one million, four parts in 100,000, and seven parts in one million, all in AMU. Further, we are able to exactly relate the neutron minus proton mass difference to a function of the up and down current quark masses, which in turn enables us to explain the 2H binding energy most precisely of all, to just over 8 parts in ten million. These energies have never before been theoretically explained with such accuracy, which leads to the conclusion that the underlying thesis provides the strongest theoretical explanation to date of what baryons are, and of how protons and neutrons confine their quarks and bind together into composite nuclides. As is also reviewed in Section 9, these results may lay the foundation for more easily catalyzing nuclear fusion energy release.
文摘In the present paper, we consider the nucleons in the helium-3 and helium-4 nuclei as tori. These tori rotate with constant angular velocity around an axis, which is perpendicular to the rotation plane and passes through the centre of mass of the nuclei. Based on exact analytical expressions for the electrostatic interaction between two spheres with arbitrary radii and charges derived by us recently, we find that the well-known potential binding energy for the helion and for the alpha particle is of electromagnetic character. Using the above mentioned formulae, we find the interaction force in the nuclei under consideration. Our toroid model recovers the basic experimental results not only for the binding energy, but also for the stability, radii, spins and the magnetic moments of the helion and the alpha particle.
文摘10亿美元的支持投入,7个月内全球范围内2000多家大企业级客户,基于Openstack商用平台的落地和解决方案的推出,惠普Helion一路高歌猛进,直指混合云市场。2015年新年伊始,惠普宣布惠普Helion Open Stack和惠普Helion开发平台在中国正式商用,与此同时,惠普还推出了针对于惠普Helion的第一个优化解决方案——惠普Helion Content Depot。
