In this paper,by studying the domain of selection of the variables participating in variation operations,we prove that Suslov's point of view that the processes of variation and differentiation are not permutable ...In this paper,by studying the domain of selection of the variables participating in variation operations,we prove that Suslov's point of view that the processes of variation and differentiation are not permutable in non-holonomic systems is a misconception.We also prove that Hlde's point of view that the processes of variation and differentiation are permutable in non-holonomie systems has an imperfection.The work presented in this paper has solved the problem of the d-δ permutable property in non-holonomic systems.展开更多
In correlated oxides,collaborative manipulation on light intensity,wavelength,pulse duration and polarization has yielded many exotic discoveries,such as phase transitions and novel quantum states.In view of potential...In correlated oxides,collaborative manipulation on light intensity,wavelength,pulse duration and polarization has yielded many exotic discoveries,such as phase transitions and novel quantum states.In view of potential optoelectronic applications,tailoring long-lived static properties by light-induced effects is highly desirable.So far,the polarization state of light has rarely been reported as a control parameter for this purpose.Here,we report polarization-dependent metal-to-insulator transition(MIT)in phaseseparated manganite thin films,introducing a new degree of freedom to control static MIT.Specifically,we observed giant photoinduced resistance jumps with striking features:(1)a single resistance jump occurs upon a linearly polarized light incident with a chosen polarization angle,and a second resistance jump occurs when the polarization angle changes;(2)the amplitude of the second resistance jump depends sensitively on the actual change of the polarization angles.Linear transmittance measurements reveal that the origin of the above phenomena is closely related to the coexistence of anisotropic micro-domains.Our results represent a first step to utilize light polarization as an active knob to manipulate static phase transitions,pointing towards new pathways for nonvolatile optoelectronic devices and sensors.展开更多
文摘In this paper,by studying the domain of selection of the variables participating in variation operations,we prove that Suslov's point of view that the processes of variation and differentiation are not permutable in non-holonomic systems is a misconception.We also prove that Hlde's point of view that the processes of variation and differentiation are permutable in non-holonomie systems has an imperfection.The work presented in this paper has solved the problem of the d-δ permutable property in non-holonomic systems.
基金supported by the National Key Research and Development Program of China(2022YFA1403300 and 2020YFA0309100)the National Natural Science Foundation of China(11991060,12074075,12074073,12074071,12074080,and 12274088)+3 种基金the Shanghai Municipal Science and Technology Major Project(2019SHZDZX01)the Shanghai Municipal Natural Science Foundation(20501130600,22ZR1408100,22ZR1407400,and 23ZR1407200)support from the National Key Research and Development Program of China(2021YFA1400503 and 2021YFA1400202)the National Natural Science Foundation of China(12125403,11874123,and 12221004).
文摘In correlated oxides,collaborative manipulation on light intensity,wavelength,pulse duration and polarization has yielded many exotic discoveries,such as phase transitions and novel quantum states.In view of potential optoelectronic applications,tailoring long-lived static properties by light-induced effects is highly desirable.So far,the polarization state of light has rarely been reported as a control parameter for this purpose.Here,we report polarization-dependent metal-to-insulator transition(MIT)in phaseseparated manganite thin films,introducing a new degree of freedom to control static MIT.Specifically,we observed giant photoinduced resistance jumps with striking features:(1)a single resistance jump occurs upon a linearly polarized light incident with a chosen polarization angle,and a second resistance jump occurs when the polarization angle changes;(2)the amplitude of the second resistance jump depends sensitively on the actual change of the polarization angles.Linear transmittance measurements reveal that the origin of the above phenomena is closely related to the coexistence of anisotropic micro-domains.Our results represent a first step to utilize light polarization as an active knob to manipulate static phase transitions,pointing towards new pathways for nonvolatile optoelectronic devices and sensors.
