CN108133072A - Mica Ar-Ar chronology thermal history analogy methods and system - Google Patents

Abstract

The invention discloses a kind of mica Ar Ar chronology thermal history analogy methods and system, this method to include：The chronological closure temperatures of given mica Ar Ar；The chronological spherolite diffusion model equivalent redius of mica Ar Ar is asked for according to closure temperature；The chronological spherolite diffusion equations of mica Ar Ar are established according to spherolite diffusion model equivalent redius；Relationship between mica Ar Ar plateau ages and thermal history is built by spherolite diffusion equation；According to relationship between mica Ar Ar plateau ages and thermal history, mica Ar Ar plateau ages with arbitrary data types are combined and carry out thermal history simulation.The present invention asks for spherolite diffusion model equivalent redius by first giving mica Ar Ar chronologys closure temperatures, then the method for establishing relationship between mica Ar Ar plateau ages and thermal history, so that mica Ar Ar plateau ages can be directly used for the recovery of thermal history, so as to provide more selectable approach for Thermal history.

Description

Mica Ar-Ar chronology thermal history analogy methods and system

Technical field

The present invention relates to thermal history analogue technique field, more particularly to a kind of mica Ar-Ar chronology thermal history analogy methods and System.

Background technology

Traditional mica Ar-Ar chronologys are mainly explained or used to geological phenomenon using mica Ar-Ar plateau ages Mica Ar-Ar plateau ages and closure temperature range simulate the thermal history obtained by other Low-temperature Thermochronology methods (such as fission track) It is constrained, can not directly carry out thermal history inverting, therefore its thermal history analog functuion having has not been given play to well Come.

Invention content

One of the technical issues of the present invention is directed to solve at least to a certain extent in above-mentioned the relevant technologies.

For this purpose, an object of the present invention is to provide a kind of mica Ar-Ar chronologys thermal history analogy methods.The mica Ar-Ar chronology thermal history analogy methods ask for spherolite diffusion model etc. by first giving mica Ar-Ar chronologys closure temperature Imitate radius, the method for then establishing relationship between mica Ar-Ar plateau ages and thermal history by spherolite diffusion equation again so that cloud Female Ar-Ar plateau ages can be directly used for the recovery of thermal history, so as to provide more selectable approach for Thermal history.

It is another object of the present invention to propose a kind of mica Ar-Ar chronologys thermal history simulation system.

To achieve these goals, an aspect of of the present present invention discloses a kind of mica Ar-Ar chronology thermal historys simulation side Method, including：The chronological closure temperatures of given mica Ar-Ar；It is asked for according to the chronological closure temperatures of mica Ar-Ar The chronological spherolite diffusion model equivalent redius of mica Ar-Ar；According to the chronological spherolite diffusions of the mica Ar-Ar Model equivalent redius establishes the chronological spherolite diffusion equations of mica Ar-Ar；Pass through the chronological spherolites of mica Ar-Ar Diffusion equation builds relationship between mica Ar-Ar plateau ages and thermal history；According between the mica Ar-Ar plateau ages and thermal history The mica Ar-Ar plateau ages with arbitrary data types are combined and carry out thermal history simulation by relationship.

Mica Ar-Ar chronologys thermal history analogy method according to the present invention is sealed by first giving mica Ar-Ar chronologys Temperature is closed to ask for spherolite diffusion model equivalent redius, then again by spherolite diffusion equation establish mica Ar-Ar plateau ages with The method of relationship between thermal history so that mica Ar-Ar plateau ages can be directly used for the recovery of thermal history, so as to be thermal history Restore to provide more selectable approach.

In addition, mica Ar-Ar chronology thermal historys analogy method according to the above embodiment of the present invention can also have it is as follows Additional technical characteristic：

Further, it is described that the mica Ar-Ar plateau ages are combined to the step for carrying out thermal history simulation with arbitrary data types Suddenly it specifically includes：By mica Ar-Ar plateau ages and fission-track age, U-Th/He ages, fission track enclose limit track lenth, Reflectance of vitrinite, basement rock quartz light release the combination of one or more of light method method and carry out thermal simulation.

Another aspect of the present invention discloses a kind of mica Ar-Ar chronologys thermal history simulation system, including：Given module, For giving the chronological closure temperatures of mica Ar-Ar；Module is solved, the solution module is connected with the given module, uses It is equivalent in asking for the chronological spherolite diffusion models of the mica Ar-Ar according to the chronological closure temperatures of mica Ar-Ar Radius；Module is established, the module of establishing is connected with the solution module, for according to the chronological balls of mica Ar-Ar Grain diffusion model equivalent redius establishes the chronological spherolite diffusion equations of mica Ar-Ar；Build module, it is described build module with The module of establishing is connected, and mica Ar-Ar level grounds year are built for passing through the chronological spherolite diffusion equations of the mica Ar-Ar Relationship between age and thermal history；Analog module, the analog module is connected with the module of building, for according to the mica The mica Ar-Ar plateau ages with arbitrary data types are combined and carry out thermal history mould by relationship between Ar-Ar plateau ages and thermal history Intend.

Mica Ar-Ar chronologys thermal history simulation system according to the present invention is sealed by first giving mica Ar-Ar chronologys Temperature is closed to ask for spherolite diffusion model equivalent redius, then again by spherolite diffusion equation establish mica Ar-Ar plateau ages with The method of relationship between thermal history so that mica Ar-Ar plateau ages can be directly used for the recovery of thermal history, so as to be thermal history Restore to provide more selectable approach.

In addition, mica Ar-Ar chronology thermal historys simulation system according to the above embodiment of the present invention can also have it is as follows Additional technical characteristic：

Further, the analog module is specifically used for：By mica Ar-Ar plateau ages and fission-track age, U-Th/ He ages, fission track enclose limit track lenth, reflectance of vitrinite, basement rock quartz light and release one or more of light method side Method combination carries out thermal simulation.

Further, it further includes：Display module, for showing thermal history analog result.

The additional aspect and advantage of the present invention will be set forth in part in the description, partly will from the following description Become apparent or recognized by the practice of the present invention.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention is from combining in description of the accompanying drawings below to embodiment by change It obtains significantly and is readily appreciated that, wherein：

Fig. 1 is the flow chart of mica Ar-Ar chronologys thermal history analogy method according to an embodiment of the invention；

Fig. 2 is thermal history analogue data type combination selection schematic diagram；

Fig. 3 is mica Ar-Ar plateau ages, Zircon FT analysis age, the combination selection signal of Apatite fission track age Figure；

Fig. 4 is mica Ar-Ar plateau ages, Zircon FT analysis age, Apatite fission track age combination input data Schematic diagram；

Fig. 5 is mica Ar-Ar plateau ages, Zircon FT analysis age, Apatite fission track age combine analog result Default display interfaces；

Fig. 6 is mica Ar-Ar plateau ages, Zircon FT analysis age, Apatite fission track age combine analog result Traditional display interface；

Fig. 7 is the structure chart of mica Ar-Ar chronologys thermal history simulation system according to an embodiment of the invention.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to The embodiment of attached drawing description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.

Mica Ar-Ar chronology thermal history analogy methods and system according to embodiments of the present invention are described below in conjunction with attached drawing.

Fig. 1 is the flow chart of mica Ar-Ar chronologys thermal history analogy method according to an embodiment of the invention.

As shown in Figure 1, mica Ar-Ar chronologys thermal history analogy method according to an embodiment of the invention, including：

S110：The chronological closure temperatures of given mica Ar-Ar.

Wherein, the chronological closure temperatures of mica Ar-Ar refer to that mica Ar-Ar is cooled to after being formed substantially can be complete Into the temperature for retaining radiogenic daughter isotope.

S120：The chronological spherolite diffusion models of mica Ar-Ar are asked for according to the chronological closure temperatures of mica Ar-Ar Equivalent redius.

Specifically, closure temperature given first asks for spherolite diffusion model equivalent half further according to closure temperature calculation formula Diameter：

Wherein, a is spherolite diffusion model equivalent redius (μm), and A be geometrical factor (during spherolite be 55), T_cFor closing temperature It spends (K), dT/dt is cooldown rate (DEG C/Ma), E_aFor activation energy (J/mol), D₀For the frequency factor in Arrhenius formula (m²/ s), R is gas constant (8.3145J/ (molK)).Because the chronological closure temperatures of mica Ar-Ar are typically one Range so to give the maximum and minimum value of closure temperature, calculates maximum and minimum equivalent redius accordingly in this way. Therefore during thermal history simulation is carried out by mica Ar-Ar chronologys, spherolite diffusion model equivalent redius is a model It encloses.

S130：It is chronological that mica Ar-Ar is established according to the chronological spherolite diffusion model equivalent redius of mica Ar-Ar Spherolite diffusion equation.

Specifically, using following spherolite diffusion equation：

Wherein C is concentration, and κ is diffusion coefficient, and t is the time, A₀For⁴⁰Ar generation rates, a are spherolite diffusion model equivalent half Diameter.It can be to equation solution after known dilation angle.

S140：It is built between mica Ar-Ar plateau ages and thermal history by the chronological spherolite diffusion equations of mica Ar-Ar Relationship.

Specifically, in above-mentioned diffusion equation, plateau age is corresponding⁴⁰Ar generation rates are T_c=λ × C_Kt, λ is⁴⁰K is generated⁴⁰Ar Decay coefficient, C_KtFor⁴⁰K is in the concentration of t moment.And C_Kt=C_K0×e^λt,C_K0For now⁴⁰The concentration of K.C_K0Actually it is not required to It measures, it is an amount for comparison, it will be assumed that a value (such as 100ppm) calculates gained⁴⁰Ar compares therewith again It can obtain age value.And diffusion coefficient is expressed by Arrhenius formula, different thermal historys is due to the different temperature of correspondence Degree-time parameter, therefore the diffusion coefficient of gained is also different.Diffusion equation can be solved, counted eventually by finite difference calculus It obtains⁴⁰The concentration variation of Ar, and then calculate now⁴⁰Ar total amounts, then the methods of being integrated by interpolating function calculate it is corresponding Plateau age value.

S150：According to relationship between mica Ar-Ar plateau ages and thermal history, by mica Ar-Ar plateau ages and arbitrary data class Type combination carries out thermal history simulation.

Step S150 is specifically included：By mica Ar-Ar plateau ages and fission-track age, U-Th/He ages, fission diameter Mark encloses limit track lenth, reflectance of vitrinite, basement rock quartz light and releases one or more of light method method combination progress hot-die Intend.

Specifically, thermal history is carried out to when screening by unified acceptable degree of fitting or high-precision degree of fitting, this Sample just produces and compares use and arbitrary combination on this basis between any means.Wherein for mica Ar-Ar methods For, since mica Ar-Ar methods first give a closure temperature range, each thermal history corresponding age is also one Range；Intersect if this range has with the acceptable degree of fitting range based on mica Ar-Ar plateau ages, in thermal history The thermal history assumed in refutation process by monte carlo method is considered as acceptable.

With reference to shown in Fig. 2, embodiments herein can pass through a Low-T Thermo softwares of establishment.Use this During software, in data type input interface, including：The Apatite fission track age (Apatite Fission Track Age), Apatite U-Th/He (Apatite U-Th/He), Zircon FT analysis age (Zircon Fission Track Age), cloud Female Ar-Ar plateau ages (Mica Ar-Ar), reflectance of vitrinite (%Ro), Apatite fission track enclose limit track lenth (Apatite Fission Track Length), zircon U-Th/He (Zircon U-Th/He), basement rock quartz light release light (Bedrock Quartz OSL)。

By taking three kinds of combinations as an example：Zircon FT analysis age (Zircon Fission Track Age), apatite are split Become track ages (Apatite Fission Track Age), mica Ar-Ar plateau ages (Mica Ar-Ar) combination carries out heat History is simulated.

With reference to shown in Fig. 3, corresponding Zircon FT analysis age (Zircon Fission Track Age), phosphorus are selected Lime stone fission-track age (Apatite Fission Track Age), mica Ar-Ar plateau ages (Mica Ar-Ar) combine into Row thermal history is simulated, and the corresponding data type of input with reference to shown in Fig. 4 for Apatite Fission Track Age, has choosing Item Age and σ (standard error), selects the two data to be inputted, for Zircon Fission Track Age, has Corresponding option Age and σ (standard error), select the two data to be inputted, and for Mica Ar-Ar, have corresponding Option Age and σ (standard error), Ea (activation energy), D0 (diffusion coefficient at a temperature of infinite height), Tc (closure temperature).With reference to Shown in Fig. 5, the software of the application further includes data result display, wherein, acquiescence shows in the interface of result that C1 represents mould Intend as a result, thermal history curve is acceptable thermal history curve in figure, heavy black line (be averaged thermal history curve) therein represents Optimal thermal history analog result.The corresponding age value of optimal thermal history simulation curve (heavy black line in analog result) is shown in Right side.With reference to shown in Fig. 6, in traditional Show Styles, C2 represents final analog result, and canescence part range P1 is can connect By range, grey black part range P2 for high-precision range (GOF >=0.5, wherein, GOF represents the analogue value and experiment measured value Departure degree).Wherein, heavy black line (be averaged thermal history curve) represents optimal thermal history analog result.Optimal thermal history simulation The corresponding age value of curve (heavy black line in analog result) is shown in right side.

Mica Ar-Ar chronologys thermal history analogy method according to the present invention is sealed by first giving mica Ar-Ar chronologys Temperature is closed to ask for spherolite diffusion model equivalent redius, then again by spherolite diffusion equation establish mica Ar-Ar plateau ages with The method of relationship between thermal history so that mica Ar-Ar plateau ages can be directly used for the recovery of thermal history, so as to be thermal history Restore to provide more selectable approach.

Fig. 7 is the structure chart of mica Ar-Ar chronologys thermal history simulation system according to an embodiment of the invention.

As shown in fig. 7, the mica Ar-Ar chronology thermal historys simulation system 200 of one embodiment of the invention, including：It is given Module 210 solves module 220, establishes module 230, builds module 240 and analog module 250.

Wherein, module 210 is given for giving the chronological closure temperatures of mica Ar-Ar.Module 220 is solved with giving Module 210 is connected, and spreads mould for asking for the chronological spherolites of mica Ar-Ar according to the chronological closure temperatures of mica Ar-Ar Type equivalent redius.It establishes module 230 and is connected with solving module 220, for spreading mould according to the chronological spherolites of mica Ar-Ar Type equivalent redius establishes the chronological spherolite diffusion equations of mica Ar-Ar.It builds module 240 and is connected with establishing module 230, use In building relationship between mica Ar-Ar plateau ages and thermal history by the chronological spherolite diffusion equations of mica Ar-Ar.Simulate mould Block 250 is connected with building module 240, for according to relationship between mica Ar-Ar plateau ages and thermal history, by mica Ar-Ar level grounds year Age combines with arbitrary data types carries out thermal history simulation.

Mica Ar-Ar chronologys thermal history simulation system according to the present invention is sealed by first giving mica Ar-Ar chronologys Temperature is closed to ask for spherolite diffusion model equivalent redius, then again by spherolite diffusion equation establish mica Ar-Ar plateau ages with The method of relationship between thermal history so that mica Ar-Ar plateau ages can be directly used for the recovery of thermal history, so as to be thermal history Restore to provide more selectable approach.

In some embodiments, analog module 250 is specifically used for：By mica Ar-Ar plateau ages and fission-track age, U-Th/He ages, fission track enclose limit track lenth, reflectance of vitrinite, basement rock quartz light release one kind or several in light method Kind method combination carries out thermal simulation.

In some embodiments, it further includes：Display module, for showing thermal history analog result.

It should be noted that the specific implementation of the mica Ar-Ar chronology thermal history simulation systems of the embodiment of the present invention It is similar with the specific implementation of the mica Ar-Ar chronology thermal history analogy methods of the embodiment of the present invention, specifically refer to mica The description of Ar-Ar chronology thermal history analogy methods part, in order to reduce redundancy, is not repeated herein.

In addition, term " first ", " second " are only used for description purpose, and it is not intended that indicating or implying relatively important Property or the implicit quantity for indicating indicated technical characteristic." first " is defined as a result, the feature of " second " can be expressed Or implicitly include at least one this feature.In the description of the present invention, " multiple " are meant that at least two, such as two It is a, three etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " Wait terms that should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral；It can be machine Tool is connected or is electrically connected；It can be directly connected, can also be indirectly connected by intermediary, can be two members The interaction relationship of connection or two elements inside part, unless otherwise restricted clearly.For the ordinary skill of this field For personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the description of this specification, reference term " one embodiment ", " example ", " is specifically shown " some embodiments " The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description Point is contained at least one embodiment of the present invention or example.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It is combined in an appropriate manner in one or more embodiments or example.In addition, without conflicting with each other, this field Technical staff can carry out the feature of the different embodiments or examples described in this specification and different embodiments or examples With reference to and combination.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, those of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (5)

1. a kind of mica Ar-Ar chronologys thermal history analogy method, which is characterized in that including：

The chronological closure temperatures of given mica Ar-Ar；

Chronological spherolite diffusion models of the mica Ar-Ar etc. are asked for according to the chronological closure temperatures of mica Ar-Ar Imitate radius；

The chronological spherolites of mica Ar-Ar are established according to the chronological spherolite diffusion model equivalent redius of the mica Ar-Ar to expand Dissipate equation；

Relationship between mica Ar-Ar plateau ages and thermal history is built by the chronological spherolite diffusion equations of the mica Ar-Ar；

According to relationship between the mica Ar-Ar plateau ages and thermal history, by the mica Ar-Ar plateau ages and arbitrary data types Combination carries out thermal history simulation.

2. mica Ar-Ar chronologys thermal history analogy method according to claim 1, which is characterized in that described by the cloud Female Ar-Ar plateau ages combine the step of carrying out thermal history simulation with arbitrary data types and specifically include：By mica Ar-Ar plateau ages with Fission-track age, U-Th/He ages, fission track enclose limit track lenth, reflectance of vitrinite, basement rock quartz light and release light method One or more of method combination carry out thermal simulation.

3. a kind of mica Ar-Ar chronologys thermal history simulation system, which is characterized in that including：

Given module, for giving the chronological closure temperatures of mica Ar-Ar；

Module is solved, the solution module is connected with the given module, for according to the chronological closings of mica Ar-Ar Temperature asks for the chronological spherolite diffusion model equivalent redius of the mica Ar-Ar；

Module is established, the module of establishing is connected with the solution module, for according to the chronological spherolites of mica Ar-Ar Diffusion model equivalent redius establishes the chronological spherolite diffusion equations of mica Ar-Ar；

Module is built, the module of building is connected with the module of establishing, for passing through the chronological spherolites of mica Ar-Ar Diffusion equation builds relationship between mica Ar-Ar plateau ages and thermal history；

Analog module, the analog module are connected with the module of building, for according to the mica Ar-Ar plateau ages and thermal history Between relationship, the mica Ar-Ar plateau ages are combined with arbitrary data types and carry out thermal history simulation.

4. mica Ar-Ar chronologys thermal history simulation system according to claim 3, which is characterized in that the analog module It is specifically used for：Mica Ar-Ar plateau ages and fission-track age, U-Th/He ages, fission track are enclosed into limit track lenth, mirror Plastid reflectivity, basement rock quartz light release the combination of one or more of light method method and carry out thermal simulation.

5. mica Ar-Ar chronologys thermal history simulation system according to claim 3, which is characterized in that further include：Show mould Block, for showing thermal history analog result.