CN2729711Y - Electromagnetic amplified X-ray induced photoelectronic phase imaging apparatus - Google Patents

Abstract

A kind of electromagnetic amplified X-ray induced photoelectronic phase imaging apparatus, it includes x-ray source, it is characterized in that being successively sample to be tested, optoelectronic converter, accelerating anode, electromagnetic amplifying lens group, CCD along x-ray direction of advance, the output of the CCD connects computer, optoelectronic converter is located at after sample to be tested, with sample to be tested distance Z2 are as follows: In formula: λ-X-ray wavelength, U- object spatial frequencies, the distance of Z1- sample to be tested and x-ray source. Optoelectronic converter, accelerating anode, electromagnetic amplifying lens group and the CCD is incorporated within a vacuum system. The utility model had not only had hard X ray high-penetration performance, but also had had both the characteristic that photoelectron can effectively amplify, can in real time, rapidly organism under observation of nature condition of living organism, a variety of materials phase mehtod.

Description

The electromagnetism amplifying X-ray is induced photoelectron phase contrast imaging device

Technical field:

The utility model is about X ray phase contrast imaging device, particularly relates to a kind of electromagnetism amplifying X-ray and induces photoelectron phase contrast imaging device.

Background technology:

X ray is used for the history in existing 100 years of imaging, has become indispensable diagnostic tool in medical science, biology and the material science.Early stage x-ray imaging technology is the difference of per sample Density Distribution difference, composition and thickness, obtains the contrast of picture.But in the hard X ray scope, minimum based on the object absorption of light element such as biosome soft tissue, polymkeric substance and carbon fiber etc., the contrast of generation is also very little.For absorbing object a little less than this class, the position phase shift of hard X ray is but very big.In recent years, fast development along with high brightness synchrotron radiation light source and x-ray laser, the phase contrast imaging has become a research focus of imaging field in the world, in fields such as medical diagnosis, biology and investigations of materials significant superiority is arranged, and has the potentiality of applying.

When the X ray penetrating material, its phase change has provided the possibility that produces phase contrast.New x-ray imaging method is inquired into by at present several in the world research groups, and mainly can be divided three classes: the coaxial holographic imaging method of interferometric method, diffraction approach and class is respectively to , and ² measures.Wherein, what people such as Wilkins provided is a kind of very simple, noticeable especially based on the X ray phase imaging method of fresnel diffraction, it is exactly in fact the record of X ray with the holography of shaft-cup cypress, also be referred to as the direct imaging of X ray phase place (referring to technology: S.W.Wilkins formerly, T.E.Gureyev, D.Gao et al., Nature, 1996,384,335-338).

We know, when light wave passes through object, produce scattering and absorption, will obtain absorption of sample contrast picture clearly from the suitable distance of sample, and this is the imaging basis of conventional micro-and chromatography.

From X ray optics, we know: the refractive index n of X ray _x=1-δ, δ=r ₀λ ²N _AtF/2 π, in the formula, λ is the X ray wavelength, r ₀Be classical electron radius, N _AtBe atomicity density in the unit volume, f is an atomic scattering factor.Although the difference of 1-δ and 1 has only 10 ^-5, but when using very little λ value, even the variation of not too big thickness or density also may produce sizable phase distortion.If when adopting coherent light or partially coherent light by object, except absorbing, also to produce phase change, the distortion of wavefront promptly takes place.This wavefront distortion causes the direction of propagation on part corrugated to change, make the corrugated overlapping and form to interfere, like this, phase change changes into Strength Changes, this is the physical basis of phase contrast imaging, also is the physical basis of phase contrast chromatography, what is more important, this image can directly obtain the phase change image without any reconfiguration technique.

Under the approximate prerequisite of scalar, the optics complex transfer function F of sample is had

w(x，y)＝F(x，y)w(x，y) (1)

Wherein, w and w ₀Expression is by thin sample front and back point (x, monochromatic field of y) locating on object plane respectively.The transport function F that includes refractive index real part and imaginary part can be expressed as

Wherein, M represents absorption, and represents phase change

$M(x,y)=\exp (-\frac{1}{2}\∫\mathrm{\μ}(x,y,z)\mathrm{dz})$

μ is a linear absorption coefficient, and n is the real part of refractive index.Path of integration in last two formulas is all along the direction of propagation z of light beam.

Usually refractive index and 1 differs very little (10 ^-5Magnitude).Can be with two kinds of methods analysts for imaging process: the one, regard the propagation that light wave passes after the sample as spherical wave, with Fresnel-Kirchhoff's integral methods analyst; The one, the incident light plane wave propagation is passed sample be considered as by a wave filter, spatial transmission thereafter all adopts the methods analyst of Fourier optics.

With the monochromatic wave exp{-ikz} under the one-dimensional case is example (being without loss of generality), considers a weak phase object that absorbs, and we can obtain equation

$I\left(x\right)\≈1-\frac{{\mathrm{\λ}}^2}{2\mathrm{\π}}{r}_e{\mathrm{z\ρ}}^n\left(x\right)$

At a specific thing-have as plan range

I(x)＝1-2r _eλρ _e(x)

Under the paraxial approximation condition, phase place itself appears in the expression formula of light distribution, can also see from following formula, wavelength X appears in second with a first-order factor, its influence to imaging is very little, that is to say that phase contrast imaging is not very high to the requirement of temporal coherence, this just provides the possibility that adopts the microfocus X-ray tube to carry out imaging.Certainly adopt the good synchrotron radiation source of monochromaticity, can obtain the higher image of sharpness.

This hard X ray phase contrast imaging resolution usually is subjected to the influence of recording medium resolution, and resolution is the magnitude of 10 μ m.

Summary of the invention:

The utility model proposes a kind of new device at existing shortcoming in the above-mentioned technology formerly, and promptly the electromagnetism amplifying X-ray is induced photoelectron phase contrast imaging device.

After hard X ray penetrates sample, if detector is placed directly in the sample back, record be one based on the X ray perspective view that absorbs contrast mechanism.When if detector and sample distance satisfies following formula:

$Z_2=\frac{{0.49\mathrm{<figure-callout\; id="1"\; label="Z"\; filenames="Y20042008261300071.png"\; state="\{\{state\}\}">Z</figure-callout>}}_1}{{\mathrm{\&lambda;U}}^2{Z}_1-0.49}$

Just can obtain the phase contrast picture of object, in the formula: λ is the X ray wavelength, and U is the object space frequency, Z ₁It is the distance of testing sample and x-ray source.

It is to be noted that especially what this phase-contrast images reflected is the place that the object refractive index is undergone mutation.

Specifically, technical solution of the present utility model is:

A kind of electromagnetism amplifying X-ray is induced photoelectron phase contrast imaging device, it comprises x-ray source, it is characterized in that along x ray working direction be testing sample, optoelectronic converter, accelerating anode, electromagnetic amplifying lens group, CCD successively, the output of this CCD connects computing machine, and optoelectronic converter is positioned at after the testing sample, with testing sample apart from Z ₂For:

$Z_2=\frac{0.4{9\mathrm{<figure-callout\; id="1"\; label="Z"\; filenames="Y20042008261300071.png"\; state="\{\{state\}\}">Z</figure-callout>}}_1}{{\mathrm{\&lambda;U}}^2{Z}_1-0.49}$

In the formula: λ-X ray wavelength,

U-object space frequency,

Z ₁The distance of-testing sample and x-ray source.

Described optoelectronic converter, accelerating anode, electromagnetic amplifying lens group and CCD are contained within the vacuum system.

Described x-ray source is X-ray tube or synchrotron radiation source of a microfocus.

Described testing sample be placed in one have about, the example platform of front and back regulatory function.

Described optoelectronic converter, it can convert hard X ray to electronics, for example photocathode.

Electromagnetism amplifying X-ray of the present utility model is induced photoelectron phase contrast imaging device, compare with technology formerly, the very strong advantage of its existing hard X ray penetration capacity has the function that photoelectron can be amplified by high power again, can observe to high resolving power refractive index sudden change details partly in the sample.

Description of drawings:

Fig. 1 induces the structured flowchart of photoelectron phase contrast imaging device for the utility model electromagnetism amplifying X-ray.

Embodiment

The structure that electromagnetism amplifying X-ray of the present utility model is induced photoelectron phase contrast imaging device as shown in Figure 1.It comprises 8 parts: x-ray source 1, sample stage 2, optoelectronic converter 3, accelerating anode 4, electromagnetic amplifying lens group 5, CCD6, computing machine 7, vacuum system 8.

The X-ray tube that said x-ray source 1 is a microfocus or a synchrotron radiation source.

Said testing sample 2 is placed on the sample platform, about this example platform has, the regulatory function of front and back.

Said optoelectronic converter 3, it can convert hard X ray to electronics, for example photocathode.The material of photocathode has three classes usually: (1) metal species, mainly contain gold, copper, magnesium, tantalum etc., and its characteristic is the threshold power height, quantum efficiency is low, because most of incident optical energy converts heat energy to, the photocathode that high-repetition-rate is turned round needs cooling; Advantage is easy preparation, and long service life is low to the vacuum tightness requirement, is generally 10 ^-5～10 ^-8(2) metallic compound and alloy typically have LaB ₆, higher quantum efficiency is arranged, ultraviolet band there is higher sensitivity, require also low to vacuum tightness.(3) semiconductor photocathode.It mainly is the polybase antimonide material.As: Cs ₃Sb, CsK ₂Sb and GaAs etc.The quantum efficiency of semiconductor photocathode is the highest, can reach 2～8%; The threshold value merit is lower, can obtain higher current density.Unique shortcoming is that the life-span is short, has only tens hours.(referring to document: Chen Jianwen, Ou Yangbin, the king Zhijiang River, the light laser technical progress, 1992, the 3rd volume, 1-5).

Must from three class materials, make one's options according to the combination property of each side such as the threshold value merit of the wavelength of x-ray photon, required photocathode and quantum efficiency in the reality.Here we select the metal of long service life to make photocathode.

Said accelerating anode 4, it can quicken photoelectron.

Said electromagnetic amplifying lens group 5, it is used for will speed up electronics and amplifies.

Said CCD6 is to be used for writing down the image that contains the object phase information that has amplified.

Said computing machine 7 is to be used for showing that CCD6 receives the image of the phase contrast that is produced by sample.

Said vacuum system 8 is to be used for a normal environment that moves to photoelectron being arranged.

When hard X ray 1 and the sample interaction that places on the sample stage, and propagate into Z ₂After the distance, contain phase information in the X ray intensity distributions of this moment, what promptly comprise is phase contrast image, be placed with photoelectric commutator 3 in this position, be that phase contrast image becomes the electronics phase contrast image,, and accepted and demonstration by CCD6 and computing machine 7 because electronic energy is accelerated anode 4 and electromagnetic amplifying lens group 5 is amplified, image can be amplified to 1,000,000 times, can observe very small details.

Hard electromagnetism amplifying X-ray of the present utility model is induced photoelectron phase contrast imaging device; both had hard X ray high-penetration performance; had both photoelectron again the big characteristic of efficacious prescriptions can have been arranged; can be in real time, the position of biosome, various materials distributes mutually under the observation of nature condition of living organism apace; the refractive index part of undergoing mutation particularly; be usually based on projection imaging of mechanism of absorption X ray and electron microscopic imaging the work that can not finish, for various pathologies of human body and early-stage cancer diagnosis aspect potential huge purposes will be arranged!

Claims (5)

1, a kind of electromagnetism amplifying X-ray is induced photoelectron phase contrast imaging device, it comprises x-ray source (1), it is characterized in that along x ray working direction be testing sample (2), optoelectronic converter (3), accelerating anode (4), electromagnetic amplifying lens group (5), CCD (6) successively, the output of this CCD (6) connects computing machine (7), and optoelectronic converter (3) is positioned at testing sample (2) afterwards, with testing sample (2) apart from Z2 be:

$Z_2=\frac{0.49Z_1}{\mathrm{\&lambda;}{U}^2{Z}_1-0.49}$

In the formula: λ-X ray wavelength,

U-object space frequency,

Z ₁The distance of-testing sample (2) and x-ray source (1).

2, electromagnetism amplifying X-ray according to claim 1 is induced photoelectron phase contrast imaging device, it is characterized in that described optoelectronic converter (3), accelerating anode (4), electromagnetic amplifying lens group (5) and CCD (6) are contained within the vacuum system (8).

3, electromagnetism amplifying X-ray according to claim 1 is induced photoelectron phase contrast imaging device, it is characterized in that described x-ray source (1) is X-ray tube or synchrotron radiation source of a microfocus.

4, electromagnetism amplifying X-ray according to claim 1 is induced photoelectron phase contrast imaging device, it is characterized in that described testing sample (2) be placed in one have about, on the example platform of front and back regulatory function.

5, electromagnetism amplifying X-ray according to claim 1 is induced photoelectron phase contrast imaging device, it is characterized in that described optoelectronic converter (3) can convert hard X ray to electronics, for example photocathode.

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