CN209605833U - For the temperature control system of atomic air chamber, optical pumped magnetometer and magnetic resonance gyroscope instrument - Google Patents

Abstract

Present disclose provides a kind of temperature control systems for atomic air chamber, comprising: heater strip is wrapped in the outer surface of atomic air chamber；Heat driven circuit is connect with the both ends of heater strip；Controller controls the temperature of heater strip with realization for controlling the work of heat driven circuit with heat driven circuit connection；Ammeter is arranged on the connection branch road of heat driven circuit and heater strip, for measuring the current value for flowing through heater strip；And voltmeter, both ends are connect with the both ends of heater strip respectively, for measuring the voltage value at heater strip both ends.The disclosure additionally provides a kind of optical pumped magnetometer and a kind of magnetic resonance gyroscope instrument.

Description

For the temperature control system of atomic air chamber, optical pumped magnetometer and nuclear magnetic resonance top Spiral shell instrument

Technical field

This disclosure relates to a kind of for the temperature control system of atomic air chamber, a kind of optical pumped magnetometer, a kind of nuclear magnetic resonance Gyroscope.

Background technique

In the high-end sci-tech product such as magnetic resonance gyroscope instrument and magnetometer, core component includes atomic air chamber, and former The sub- indoor atomic density of gas and the temperature in atomic air chamber are closely related.Therefore, the temperature in atomic air chamber is controlled It is vital.

In the related art, the mode for generalling use Ohmic heating makes the temperature in atomic air chamber reach expected temperature State, but need to detect feedback signal of the temperature in atomic air chamber as heating using this mode, to make in atomic air chamber Temperature maintain design within the temperature range of.

Currently, the detection means of the temperature in detection atomic air chamber is usually based on temperature sensor.By the way that temperature is passed Sensor setting detects the temperature in atomic air chamber in atomic air chamber surface or inside.

But in implementing the present disclosure, inventors have found that by temperature sensor be arranged inside atomic air chamber or Surface can have an impact the measurement of the related keywords physical quantity such as magnetic field, and increase the complexity of equipment, reduce and set Standby Stability and dependability.

Utility model content

An aspect of this disclosure provides a kind of temperature control system for atomic air chamber, including heater strip, heating Driving circuit, controller, ammeter and voltmeter.

In accordance with an embodiment of the present disclosure, heater strip is wrapped in the outer surface of above-mentioned atomic air chamber；

In accordance with an embodiment of the present disclosure, heat driven circuit is connect with the both ends of above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, controller and above-mentioned heat driven circuit connection, for controlling above-mentioned heat driven Circuit work, to realize the temperature for controlling above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, the connection branch of above-mentioned heat driven circuit Yu above-mentioned heater strip is arranged in ammeter On, for measuring the current value for flowing through above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, voltmeter both ends are connect with the both ends of above-mentioned heater strip respectively, above-mentioned for measuring The voltage value at heater strip both ends.

In accordance with an embodiment of the present disclosure, temperature control system further includes temperature sensor, is mounted at above-mentioned original The outer surface of sub- gas chamber, for measuring the temperature of above-mentioned heater strip.

In accordance with an embodiment of the present disclosure, above-mentioned temperature sensor is connected with above controller, obtains for that will measure The temperature for stating heater strip is transferred to above controller.

In accordance with an embodiment of the present disclosure, above controller is also used to the current value and above-mentioned electricity measured according to above-mentioned ammeter The voltage value of table measurement is pressed to control above-mentioned heat driven circuit work, to realize the temperature for controlling above-mentioned heater strip.

In accordance with an embodiment of the present disclosure, above controller is also used to the current value and above-mentioned electricity measured according to above-mentioned ammeter The voltage value of pressure table measurement calculates the temperature of above-mentioned heater strip, and is controlled based on the temperature for the above-mentioned heater strip being calculated Above-mentioned heat driven circuit work.

In accordance with an embodiment of the present disclosure, temperature control system further includes incubation cavity, is set in the periphery of above-mentioned atomic air chamber, For maintaining the temperature in above-mentioned atomic air chamber.

In accordance with an embodiment of the present disclosure, above-mentioned incubation cavity is double-layer heat insulation chamber.

In accordance with an embodiment of the present disclosure, above-mentioned heater strip according to preset interval uniform winding above-mentioned atomic air chamber appearance Face.

Another aspect of the disclosure provides a kind of optical pumped magnetometer, including the first noumenon and for the temperature of atomic air chamber Spend control system.

In accordance with an embodiment of the present disclosure, above-mentioned the first noumenon includes atomic air chamber.

Another aspect of the disclosure provides a kind of magnetic resonance gyroscope instrument, including the second ontology and is used for atomic air chamber Temperature control system.

In accordance with an embodiment of the present disclosure, above-mentioned second ontology includes atomic air chamber.

Detailed description of the invention

In order to which the disclosure and its advantage is more fully understood, referring now to being described below in conjunction with attached drawing, in which:

Fig. 1 diagrammatically illustrates the schematic diagram of the optical pumped magnetometer according to the embodiment of the present disclosure；

Fig. 2 diagrammatically illustrates the schematic diagram of the temperature control system for atomic air chamber according to the embodiment of the present disclosure； And

Fig. 3 diagrammatically illustrates the signal of the temperature control system for atomic air chamber according to another embodiment of the disclosure Figure.

Specific embodiment

Hereinafter, will be described with reference to the accompanying drawings embodiment of the disclosure.However, it should be understood that these descriptions are only exemplary , and it is not intended to limit the scope of the present disclosure.In the following detailed description, to elaborate many specific thin convenient for explaining Section is to provide the comprehensive understanding to the embodiment of the present disclosure.It may be evident, however, that one or more embodiments are not having these specific thin It can also be carried out in the case where section.In addition, in the following description, descriptions of well-known structures and technologies are omitted, to avoid Unnecessarily obscure the concept of the disclosure.

Term as used herein is not intended to limit the disclosure just for the sake of description specific embodiment.It uses herein The terms "include", "comprise" etc. show the presence of the feature, step, operation and/or component, but it is not excluded that in the presence of Or add other one or more features, step, operation or component.

There are all terms (including technical and scientific term) as used herein those skilled in the art to be generally understood Meaning, unless otherwise defined.It should be noted that term used herein should be interpreted that with consistent with the context of this specification Meaning, without that should be explained with idealization or excessively mechanical mode.

It, in general should be according to this using statement as " at least one in A, B and C etc. " is similar to Field technical staff is generally understood the meaning of the statement to make an explanation (for example, " system at least one in A, B and C " Should include but is not limited to individually with A, individually with B, individually with C, with A and B, with A and C, have B and C, and/or System etc. with A, B, C).Using statement as " at least one in A, B or C etc. " is similar to, generally come Saying be generally understood the meaning of the statement according to those skilled in the art to make an explanation (for example, " having in A, B or C at least One system " should include but is not limited to individually with A, individually with B, individually with C, with A and B, with A and C, tool There are B and C, and/or the system with A, B, C etc.).

Fig. 1 diagrammatically illustrates the schematic diagram of the optical pumped magnetometer according to the embodiment of the present disclosure.It should be noted that Fig. 1 Shown is only the example that can apply the optical pumped magnetometer of the embodiment of the present disclosure, to help skilled in the art to understand the disclosure Technology contents, but improper restriction therefore can not be carried out to the optical pumped magnetometer of the embodiment of the present disclosure.

As shown in Figure 1, optical pumped magnetometer includes the temperature control system 110 and the first noumenon 120 for atomic air chamber.

In accordance with an embodiment of the present disclosure, the first noumenon 120 includes at least atomic air chamber 121.

In accordance with an embodiment of the present disclosure, the first noumenon 120 can also include light source 122, optical system 123, photodetection Device 124 and oscillograph 125 etc..

It in accordance with an embodiment of the present disclosure, include heater strip 111, heating drive for the temperature control system of atomic air chamber 110 Dynamic circuit 112, controller 113, ammeter 114 and voltmeter 115.

In accordance with an embodiment of the present disclosure, as shown in Figure 1, heater strip 111 is wrapped in the outer surface of above-mentioned atomic air chamber 121.

In accordance with an embodiment of the present disclosure, as shown in Figure 1, above-mentioned heater strip 111 can exist according to preset interval uniform winding The outer surface of above-mentioned atomic air chamber 121.

In accordance with an embodiment of the present disclosure, those skilled in the art can preset interval determines according to actual conditions size.

In accordance with an embodiment of the present disclosure, heater strip 111 makes in atomic air chamber 121 for heating to atomic air chamber 121 Atomic density be in preferable states.Heater strip 111 can be designed to the mode that forward current is combined with reverse current, to support The magnetic field for the opposite direction that disappears.

In accordance with an embodiment of the present disclosure, in such a way that forward current is combined with reverse current that heater strip 111 is symmetrical Equably be wrapped in the outer surface of atomic air chamber 121, when electric current passes through heater strip 111, the magnetic field size of generation be it is equal, But contrary, the magnetic field of generation can be offset, so as to reduce influence of the heater strip 111 to magnetic field.

In accordance with an embodiment of the present disclosure, as shown in Figure 1, the both ends of heat driven circuit 112 and above-mentioned heater strip 111 connect It connects.

In accordance with an embodiment of the present disclosure, it as shown in Figure 1, controller 113 is connect with above-mentioned heat driven circuit 112, is used for It controls above-mentioned heat driven circuit 112 to work, to realize the temperature for controlling above-mentioned heater strip 111.

In accordance with an embodiment of the present disclosure, as shown in Figure 1, ammeter 114 setting above-mentioned heat driven circuit 112 with it is above-mentioned The connection branch road of heater strip 111, for measuring the current value for flowing through above-mentioned heater strip 111.That is, heater strip 111 and electric current Table 114 can be series connection.

In accordance with an embodiment of the present disclosure, as shown in Figure 1,115 both ends of voltmeter connect with the both ends of above-mentioned heater strip 111 respectively It connects, for measuring the voltage value at above-mentioned 111 both ends of heater strip.

In accordance with an embodiment of the present disclosure, light source 122 can produce the light of specific wavelength, enter by optical system 123 former Sub- gas chamber 121 occurs physical reactions with the atom vapor in atomic air chamber 121, is detected by photodetector 124 due to outer magnetic Introducing and to optical signal generate variation, and then determine magnetic field size.Wherein, as shown in Figure 1, the magnetic field side of external magnetic field Arrow direction into such as atomic air chamber.

In accordance with an embodiment of the present disclosure, during above-mentioned determining magnetic field size, the atom in atomic air chamber 121 steams The density of vapour is maintained by heater strip 111, while heater strip 111 plays the role of thermometric, is eliminated by heater strip 111 using thermometric Sensor.

In accordance with an embodiment of the present disclosure, after the temperature for measuring heater strip 111 is higher than the preset temperature of controller 113, stop Only heat.When the temperature for measuring heater strip 111 is lower than the preset temperature of controller 113, begins to warm up, be finally reached control The preset temperature of device 113 is finally optimal atomic density in atomic air chamber with the temperature condition being optimal.

By embodiment of the disclosure, temperature control system 110 for atomic air chamber is succinct, easy, adaptability is good, and And do not interfere the atomic air chamber being heated.For heating microsystem or when compact systems, the temperature control system have compared with Big advantage.

In accordance with an embodiment of the present disclosure, what the current value for flowing through the heater strip and measurement obtained according to measurement obtained adds The temperature of heater strip can be calculated in the voltage value at heated filament both ends, achieved the effect that thermometric.So as to pass through controller The work of heat driven circuit is controlled, to realize the temperature of control heater strip.

Specifically, by calculating the resistance of heater strip, according to the relationship of the resistivity of heater strip and temperature, to obtain The temperature of heater strip.Heater strip is close to atomic air chamber, therefore the temperature of heater strip can be considered as the temperature of atomic air chamber, meter The reasoning process of the temperature of calculation heater strip can be as follows.

First, the temperature control system for atomic air chamber based on Ohmic heating mainly includes heater strip and heat driven Heating power supply two large divisions in circuit reads heating voltage U and heated current I.

Second, calculate the resistance R of heater strip:

Third obtains the relationship of heater strip temperature and resistance:

Wherein, ρ is resistivity of the heater strip under absolute temperature T, ρ₀For the resistivity at absolute zero (T=0K), L is the length of heater strip, and S is the sectional area of heater strip.Under normal circumstances, the variation of L and S can be ignored, it is believed that be normal Number.α is temperature-coefficient of electrical resistance, and numerical value is related with heating wire material, and the α value of usual metal material is 0.4% or so, in certain temperature It spends in range, is worth temperature independent, it is believed that be constant.

4th, absolute temperature T is converted into a degree Celsius t:

T=t+273.5

(3)

Equation (3) are substituted into equation (2), then:

Degree Celsius therefore, can be write with the linear relationship of resistance:

T=A*R-B (6)

Wherein,

5th, determine linear coefficient:

In temperature and the linear relationship of resistance, there are two unknown parameter A and B it needs to be determined that.Theoretical calculation can be passed through Obtain A and B, it is understood that there may be error (such as route, welding factor can cause error), but can be calibrated according to experimental data. By measuring the associated data of one group of temperature and resistance, linear fit is carried out, A and B is obtained.

In accordance with an embodiment of the present disclosure, heat driven circuit can be controlled by controller to heat heater strip, to atom Gas chamber is heated, and is measured the electric current and voltage of resistance wire using ammeter and voltmeter at this time, is calculated the resistance of resistance wire, The temperature of heater strip at this time is measured using temperature sensor simultaneously, two groups of data of measurement can find out coefficient A and B in (6) formula, So far the calibration of heater strip is completed, and takes out temperature sensor after the completion of calibration.It should be noted that temperature sensor can be It only uses, after calibration is performed, temperature sensor can be taken out, it is not necessary that temperature sensor to be arranged during the calibration process Inside atomic air chamber or surface.

In accordance with an embodiment of the present disclosure, temperature control system 110 further includes temperature sensor, is mounted at above-mentioned The outer surface of atomic air chamber 121, for measuring the temperature of above-mentioned heater strip 111.

In accordance with an embodiment of the present disclosure, since temperature sensor is mounted at the appearance of above-mentioned atomic air chamber 121 Therefore face after heater strip is completed in calibration, temperature sensor can be taken out.

In accordance with an embodiment of the present disclosure, in calibrated temperature controlled processes, the electricity of heater strip 111 can directly be passed through Its resistance value is calculated in flow valuve and voltage value, and then according to the relationship of the resistance and temperature that fit, heater strip is calculated 111 actual temperature.Actual temperature is adjusted in real time according to preset temperature, maintains 121 temperature of atomic air chamber default In the error range of temperature.

In accordance with an embodiment of the present disclosure, after the relationship of the resistance and temperature that fit, controller 113 can store this The relationship of the resistance and temperature that fit.Meanwhile the current value and voltage value of heater strip 111 can pass through ammeter 114 and electricity Pressure table 115 feeds back to controller 113, so that controller 113 can be controlled according to the current value and voltage value of heater strip 111 Heat driven circuit 112 works.

In accordance with an embodiment of the present disclosure, above-mentioned temperature sensor is connected with above controller 113, obtains for that will measure The temperature of above-mentioned heater strip 111 is transferred to above controller 113.

In accordance with an embodiment of the present disclosure, above controller 113 is also used to the current value measured according to above-mentioned ammeter 114 Above-mentioned heat driven circuit 112 is controlled with the voltage value of above-mentioned voltmeter 115 measurement to work, and controls above-mentioned heater strip to realize 111 temperature.

In accordance with an embodiment of the present disclosure, temperature control system 110 further includes incubation cavity 116, is set in above-mentioned atomic air chamber 121 periphery, for maintaining the temperature in above-mentioned atomic air chamber 121.

In accordance with an embodiment of the present disclosure, incubation cavity 116 can be double-layer heat insulation chamber, atomic air chamber 121 and heater strip 111 It is put into double-layer heat insulation chamber, it is ensured that the temperature in atomic air chamber 121 is maintained within a certain range.

By embodiment of the disclosure, by the way that heater strip to be wrapped in the outer surface of atomic air chamber, heated by setting The ammeter measurement of the connection branch road of driving circuit and heater strip flows through the current value of the heater strip, by with the heating The voltmeter of the both ends connection of silk measures the voltage value at the heater strip both ends, flows through the heater strip according to what measurement obtained The temperature of heater strip can be calculated in the voltage value at the heater strip both ends that current value and measurement obtain, to pass through controller control Heat driven circuit work processed, to realize the temperature for controlling the heater strip.

It is not necessarily to during controlling the work of heat driven circuit by temp probe or temperature by embodiment of the disclosure Degree sensor is arranged inside atomic air chamber or surface, by measuring the obtained current value for flowing through the heater strip and measuring To the voltage value at heater strip both ends the temperature of heater strip can be calculated, reduce the complexity of equipment, improve and set Standby Stability and dependability.

According to another embodiment of the present disclosure, a kind of magnetic resonance gyroscope instrument, including the second ontology and use are additionally provided In the temperature control system of atomic air chamber.

Magnetic resonance gyroscope instrument is Larmor precession using nuclear moments in magnetic field as reference, is realized to inertia The atomic gyroscope that the angular speed of carrier measures, atomic air chamber are the sensitive gauge outfits of magnetic resonance gyroscope instrument, are entirely to be The core component of system.

In accordance with an embodiment of the present disclosure, above-mentioned second ontology includes atomic air chamber.

In accordance with an embodiment of the present disclosure, it should be noted that above-mentioned second ontology can also include existing nuclear magnetic resonance top The other component that spiral shell instrument is included, for example, it is also possible to which details are not described herein including gyroscope etc..

In accordance with an embodiment of the present disclosure, for the temperature control system of atomic air chamber include heater strip, heat driven circuit, Controller, ammeter and voltmeter.

By embodiment of the disclosure, temperature control system for atomic air chamber is succinct, easy, adaptability is good, and Do not interfere the atomic air chamber being heated.When for heating microsystem or compact systems, which has larger Advantage.

In accordance with an embodiment of the present disclosure, heater strip is wrapped in the outer surface of above-mentioned atomic air chamber；

In accordance with an embodiment of the present disclosure, heat driven circuit is connect with the both ends of above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, controller and above-mentioned heat driven circuit connection, for controlling above-mentioned heat driven Circuit work, to realize the temperature for controlling above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, the connection branch of above-mentioned heat driven circuit Yu above-mentioned heater strip is arranged in ammeter On, for measuring the current value for flowing through above-mentioned heater strip；

In accordance with an embodiment of the present disclosure, voltmeter both ends are connect with the both ends of above-mentioned heater strip respectively, above-mentioned for measuring The voltage value at heater strip both ends.

In accordance with an embodiment of the present disclosure, temperature control system further includes temperature sensor, is mounted at above-mentioned original The outer surface of sub- gas chamber, for measuring the temperature of above-mentioned heater strip.

In accordance with an embodiment of the present disclosure, above-mentioned temperature sensor is connected with above controller, obtains for that will measure The temperature for stating heater strip is transferred to above controller.

In accordance with an embodiment of the present disclosure, above controller is also used to the current value and above-mentioned electricity measured according to above-mentioned ammeter The voltage value of table measurement is pressed to control above-mentioned heat driven circuit work, to realize the temperature for controlling above-mentioned heater strip.

In accordance with an embodiment of the present disclosure, temperature control system further includes incubation cavity, is set in the periphery of above-mentioned atomic air chamber, For maintaining the temperature in above-mentioned atomic air chamber.

In accordance with an embodiment of the present disclosure, above-mentioned heater strip according to preset interval uniform winding above-mentioned atomic air chamber appearance Face.

By embodiment of the disclosure, the appearance of the atomic air chamber by the way that heater strip to be wrapped in magnetic resonance gyroscope instrument Face, the ammeter measurement on connection branch road by the way that heat driven circuit and heater strip is arranged in flow through the electric current of the heater strip Value, the voltage value at the heater strip both ends is measured by the voltmeter connecting with the both ends of the heater strip, is obtained according to measurement The current value for flowing through the heater strip and the obtained voltage value at heater strip both ends of measurement the temperature of heater strip can be calculated Degree, so that the work of heat driven circuit is controlled by controller, to realize the temperature for controlling the heater strip.

It is not necessarily to during controlling the work of heat driven circuit by temp probe or temperature by embodiment of the disclosure Degree sensor is arranged inside atomic air chamber or surface, by measuring the obtained current value for flowing through the heater strip and measuring To the voltage value at heater strip both ends the temperature of heater strip can be calculated, reduce the complexity of equipment, improve and set Standby Stability and dependability.

Fig. 2 diagrammatically illustrates the schematic diagram of the temperature control system for atomic air chamber according to the embodiment of the present disclosure.

According to another embodiment of the present disclosure, for the temperature control system of atomic air chamber 200 include heater strip 201, Heat driven circuit 202, controller 203, ammeter 204 and voltmeter 205.

In accordance with an embodiment of the present disclosure, heater strip 201 is wrapped in the outer surface of above-mentioned atomic air chamber；

In accordance with an embodiment of the present disclosure, heat driven circuit 202 is connect with the both ends of above-mentioned heater strip 201；

In accordance with an embodiment of the present disclosure, controller 203 is connect with above-mentioned heat driven circuit 202, for controlling above-mentioned add Thermal drivers circuit 202 works, to realize the temperature for controlling above-mentioned heater strip 201；

In accordance with an embodiment of the present disclosure, the setting of ammeter 204 is in above-mentioned heat driven circuit 202 and above-mentioned heater strip 201 Connection branch road, for measuring the current value for flowing through above-mentioned heater strip 201；

In accordance with an embodiment of the present disclosure, 205 both ends of voltmeter are connect with the both ends of above-mentioned heater strip 201 respectively, for surveying Measure the voltage value at above-mentioned 201 both ends of heater strip.

Fig. 3 diagrammatically illustrates the signal of the temperature control system for atomic air chamber according to another embodiment of the disclosure Figure.

According to another embodiment of the present disclosure, for the temperature control system of atomic air chamber 300 include heater strip 301, Heat driven circuit 302, controller 303, ammeter 304 and voltmeter 305.

In accordance with an embodiment of the present disclosure, temperature control system 300 further includes temperature sensor 306, is mounted at The outer surface of above-mentioned atomic air chamber, for measuring the temperature of above-mentioned heater strip 301.

In accordance with an embodiment of the present disclosure, above-mentioned temperature sensor 306 can be connected with above controller 303, for that will survey The temperature of the above-mentioned heater strip 301 measured is transferred to above controller.

In accordance with an embodiment of the present disclosure, temperature control system 300 further includes incubation cavity 307, is set in above-mentioned atomic air chamber Periphery, for maintaining the temperature in above-mentioned atomic air chamber.

In accordance with an embodiment of the present disclosure, above controller 303 is also used to the current value measured according to above-mentioned ammeter 304 Above-mentioned heat driven circuit 302 is controlled with the voltage value of above-mentioned voltmeter 305 measurement to work, and controls above-mentioned heater strip to realize 301 temperature.

In accordance with an embodiment of the present disclosure, current value and above-mentioned electricity that above controller 303 is measured according to above-mentioned ammeter 304 The voltage value that pressure table 305 measures calculates the temperature of above-mentioned heater strip 301, and based on the above-mentioned heater strip 301 being calculated Temperature control above-mentioned heat driven circuit 302 and work.

In accordance with an embodiment of the present disclosure, above-mentioned heater strip 301 is according to preset interval uniform winding in above-mentioned atomic air chamber Outer surface.

By embodiment of the disclosure, after the temperature that temperature sensor 306 measures heater strip 301, according to temperature pair Heater strip is demarcated, and after having demarcated, temperature sensor 306 can be disassembled from the outer surface of atomic air chamber.In During controlling the work of heat driven circuit, it is not necessarily to temp probe or temperature sensor is arranged inside atomic air chamber or table The voltage value in face, the heater strip both ends that the current value for flowing through the heater strip and measurement obtained by measurement obtains can calculate The temperature of heater strip is obtained, the complexity of equipment is reduced, improves the Stability and dependability of equipment.

It will be understood by those skilled in the art that the feature recorded in each embodiment and/or claim of the disclosure can To carry out multiple combinations and/or combination, even if such combination or combination are not expressly recited in the disclosure.Particularly, In In the case where not departing from disclosure spirit or teaching, the feature recorded in each embodiment and/or claim of the disclosure can To carry out multiple combinations and/or combination.All these combinations and/or combination each fall within the scope of the present disclosure.

Although the disclosure, art technology has shown and described referring to the certain exemplary embodiments of the disclosure Personnel it should be understood that in the case where the spirit and scope of the present disclosure limited without departing substantially from the following claims and their equivalents, A variety of changes in form and details can be carried out to the disclosure.Therefore, the scope of the present disclosure should not necessarily be limited by above-described embodiment, But should be not only determined by appended claims, also it is defined by the equivalent of appended claims.

Claims (10)

1. a kind of temperature control system for atomic air chamber characterized by comprising

Heater strip is wrapped in the outer surface of the atomic air chamber；

Heat driven circuit is connect with the both ends of the heater strip；

Controller works with the heat driven circuit connection for controlling the heat driven circuit, to realize described in control The temperature of heater strip；

Ammeter is arranged on the connection branch road of the heat driven circuit and the heater strip, flows through described add for measuring The current value of heated filament；And

Voltmeter, both ends are connect with the both ends of the heater strip respectively, for measuring the voltage value at the heater strip both ends.

2. temperature control system according to claim 1, which is characterized in that further include:

Temperature sensor is mounted at the outer surface of the atomic air chamber, for measuring the temperature of the heater strip.

3. temperature control system according to claim 2, which is characterized in that the temperature sensor and the controller phase Even, the temperature of the heater strip for obtaining measurement is transferred to the controller.

4. temperature control system according to claim 1, which is characterized in that the controller is also used to according to the electric current The current value of table measurement and the voltage value of voltmeter measurement control the heat driven circuit work, to realize described in control The temperature of heater strip.

5. temperature control system according to claim 4, which is characterized in that the controller is also used to according to the electric current The current value of table measurement and the voltage value of voltmeter measurement calculate the temperature of the heater strip, and based on the institute being calculated The temperature for stating heater strip controls the heat driven circuit work.

6. temperature control system according to claim 1, which is characterized in that further include:

Incubation cavity is set in the periphery of the atomic air chamber, for maintaining the temperature in the atomic air chamber.

7. temperature control system according to claim 6, which is characterized in that the incubation cavity is double-layer heat insulation chamber.

8. temperature control system according to claim 1, it is characterised in that the heater strip is uniformly twined according to preset interval It is wound on the outer surface of the atomic air chamber.

9. a kind of optical pumped magnetometer characterized by comprising

The first noumenon, wherein the first noumenon includes atomic air chamber；And

Temperature control system described in any item of the claim 1 to 8.

10. a kind of magnetic resonance gyroscope instrument characterized by comprising

Second ontology, wherein second ontology includes atomic air chamber；And

Temperature control system described in any item of the claim 1 to 8.