Interlayer Pd for the Li/Pd/Cu neutron target for BNCT (boron neutron capture therapy) was characterized after 0.1-5 keV H2^+ irradiation by XAFS (X-ray absorption fine structure) technique, and following conclus...Interlayer Pd for the Li/Pd/Cu neutron target for BNCT (boron neutron capture therapy) was characterized after 0.1-5 keV H2^+ irradiation by XAFS (X-ray absorption fine structure) technique, and following conclusions were derived: (1) from the XAFS observation of white line of Pd, remarkable Pd L3 edge jump was found in 1.1-3 times higher than before irradiation in low irradiation fluence; (2) this fact indicates increase of hole density in Pd 4d-band, whereas, no change was observed for XASF spectra of Ag sample under the same irradiation conditions; (3) remarkable Pd L3 edge shift of 0.12-0.66 eV was also found with increase of H2+ irradiation energy in low fluence, and drastically decreased after peak in high irradiation energy and fluence; (4) implanted protons deposited in Pd as negative under the balance of electron population enhanced by proton irradiation and charge transfer.展开更多
Niels Bohr constructed the first version of quantum mechanics. It has been called “old quantum mechanics” with a connotation of being obsolete. It is logically consistent, however, and deserves the name of simple qu...Niels Bohr constructed the first version of quantum mechanics. It has been called “old quantum mechanics” with a connotation of being obsolete. It is logically consistent, however, and deserves the name of simple quantum mechanics (SQM). It differs only from the semiclassical approximation by assuming that the average position and average velocity of an electron can be sharply defined on closed orbits. This assumption does not contradict Heisenberg’s uncertainty relations, since the quantization rule means that the electron can be anywhere on this orbit when it allows for stationary waves. This approach was remarkably efficient for one electron in hydrogen atoms and even for the electron pair in hydrogen molecules. However, dissociation of H2 and determination of the orbit of the single electron in H2+led to problems that remained unsolved for more than 100 years. Their solution, presented here, yields more physical insight and reveals, for instance, that mutual polarization of two hydrogen atoms can yield a metastable state.展开更多
文摘Interlayer Pd for the Li/Pd/Cu neutron target for BNCT (boron neutron capture therapy) was characterized after 0.1-5 keV H2^+ irradiation by XAFS (X-ray absorption fine structure) technique, and following conclusions were derived: (1) from the XAFS observation of white line of Pd, remarkable Pd L3 edge jump was found in 1.1-3 times higher than before irradiation in low irradiation fluence; (2) this fact indicates increase of hole density in Pd 4d-band, whereas, no change was observed for XASF spectra of Ag sample under the same irradiation conditions; (3) remarkable Pd L3 edge shift of 0.12-0.66 eV was also found with increase of H2+ irradiation energy in low fluence, and drastically decreased after peak in high irradiation energy and fluence; (4) implanted protons deposited in Pd as negative under the balance of electron population enhanced by proton irradiation and charge transfer.
文摘Niels Bohr constructed the first version of quantum mechanics. It has been called “old quantum mechanics” with a connotation of being obsolete. It is logically consistent, however, and deserves the name of simple quantum mechanics (SQM). It differs only from the semiclassical approximation by assuming that the average position and average velocity of an electron can be sharply defined on closed orbits. This assumption does not contradict Heisenberg’s uncertainty relations, since the quantization rule means that the electron can be anywhere on this orbit when it allows for stationary waves. This approach was remarkably efficient for one electron in hydrogen atoms and even for the electron pair in hydrogen molecules. However, dissociation of H2 and determination of the orbit of the single electron in H2+led to problems that remained unsolved for more than 100 years. Their solution, presented here, yields more physical insight and reveals, for instance, that mutual polarization of two hydrogen atoms can yield a metastable state.