Method for realizing quantum regulation and control on upconversion luminescence of rare earth-doped material based on micro-nano resonant structure

A resonant structure and rare earth-doped technology, which is applied in the field of light-emitting technology, can solve problems such as difficult to meet the application requirements and low luminous efficiency of rare-earth-doped materials.

Pending Publication Date: 2022-07-05
SHENZHEN RES INST OF XIAMEN UNIV
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  • Application Information

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Problems solved by technology

[0003] Since upconversion luminescence is a nonlinear process, its luminescence process often involves multi-step electronic transitions and multi-wavelength photon emission between excited rare earth ions between multi-energy levels, as well as energy transfer and quenchi

Method used

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  • Method for realizing quantum regulation and control on upconversion luminescence of rare earth-doped material based on micro-nano resonant structure
  • Method for realizing quantum regulation and control on upconversion luminescence of rare earth-doped material based on micro-nano resonant structure
  • Method for realizing quantum regulation and control on upconversion luminescence of rare earth-doped material based on micro-nano resonant structure

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Embodiment 1

[0046] Embodiment 1 of the present invention selects a Fabry-Perot (F-P) resonant cavity,

[0047] The F-P cavity is a common multi-beam interference optical resonator in modern optics. It is mainly composed of two parallel mirrors. Generally, the opposite surfaces of the two plates are coated with silver film or other materials with high reflectivity. Through the repeated reflection of the incident light in the cavity, the outgoing light interferes to produce the filtering effect.

[0048] The Fabry-Perot (F-P) metal microcavity of the present invention adopts NaYF4:Yb 3+ (18%) / Er 3+ (2%) nanocrystalline particles to upconvert luminescence for luminescence modulation, such as figure 2 For the nanoparticle-doped F-P resonator of the present invention, first, a thin silver film with a thickness of about 45 nm and a thickness-adjustable MgF film are sequentially evaporated on the cleaned glass substrate by thermal evaporation. 2 dielectric layer, and then the NaYF with a siz...

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Abstract

The invention discloses a method for realizing quantum regulation and control on upconversion luminescence of a rare earth-doped material based on a micro-nano resonant structure, which comprises the following steps of: modulating a resonant mode, inhibiting radiative transition of a luminescence channel, and promoting particles in various excited states to be redistributed, including the processes of energy transfer and non-radiative transition of the particles among the different excited states, so as to realize quantum regulation and control on the upconversion luminescence of the rare earth-doped material. When the resonance wavelength of the micro-cavity is in the emission wavelength of the nanoparticles, more particles are gathered in the excited state of one allowed channel, so that the light emission of the micro-nano resonant cavity is enhanced, and the light field mode in the micro-nano resonant cavity is corrected; quantum regulation and control are carried out on multi-step electron transition processes (including radiation transition and non-radiation transition) among multiple energy levels through a resonance mode; when the resonant wavelength of the microcavity is at the emission wavelength of the nanoparticles, the up-conversion luminescence intensity at the position can be enhanced, and up-conversion luminescence of other unneeded emission wavelengths can be inhibited, so that the unneeded luminescence process can be inhibited, the luminescence process at the needed specific wavelength can be promoted, and monochromatic luminescence can be realized.

Description

technical field [0001] The invention relates to a light-emitting technology, in particular to a control method for up-conversion light-emitting of rare-earth-doped materials. Background technique [0002] In recent years, because rare earth lanthanides have the characteristics of long excited state energy level lifetime and energy level step distribution, upconversion luminescent materials doped with lanthanide ions have attracted a lot of researchers' attention, and gradually showed their application in biomarkers and biological markers. The application value of imaging, lighting, three-dimensional stereoscopic display, laser, solar cell and so on. During upconversion luminescence, the activator is usually an ion that is incorporated as a luminescence center. The up-conversion luminescence process refers to the absorption of two or more low-energy photons by the luminescent center, the excitation of the ground state electrons to a lower excited state, and the transition of...

Claims

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Application Information

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IPC IPC(8): H01S3/08H01S3/16C09K11/85
CPCH01S3/08018H01S3/1608H01S3/1618C09K11/7773
Inventor 孙志军罗雯徐峰
Owner SHENZHEN RES INST OF XIAMEN UNIV
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