CN103424194B - A kind of measuring method of frequency stability of femtosecond laser frequency comb and device - Google Patents

Abstract

The present invention relates to a kind of measuring method and device of frequency stability of femtosecond laser frequency comb, belong to physical field, optical engineering field and metrological testing technology field.Structure of the present invention is simple, cost is low, easily realize, by the mode using femtosecond laser frequency comb and temporal frequency counter, frequency synthesizer etc. to share same atomic clock reference frequency, the impact that atomic clock own frequency degree of stability causes is balanced out, thus obtains the repetition frequency, deviation frequency and the comb frequency stability measurement result that do not comprise the femtosecond laser frequency comb of atomic clock stability influence.

Description

A kind of measuring method of frequency stability of femtosecond laser frequency comb and device

Technical field

The present invention relates to a kind of measuring method and device of frequency stability of femtosecond laser frequency comb, belong to physical field, optical engineering field and metrological testing technology field.

Background technology

Take femtosecond laser frequency comb as the femtosecond laser technology of representative, can laser frequency measurement be realized, and the accuracy frequently of high comb can be provided, such as, reach 10 ^-13, 10 ^-14even higher.Because this accuracy obtains by the repetition frequency of femtosecond laser frequency comb and deviation frequency being locked onto respectively on atomic frequency, thus, the atomic clock that people find more pin-point accuracy and stability is on the one hand used for carrying out femtosecond laser frequency locking, is also attempting the measuring method finding the frequency stability how measuring the femtosecond laser frequency comb self rejecting atomic frequency stability influence conversely.It is a kind of method that people use that the two light locking onto same atomic frequency comb mutual beat frequency method, has had to use two light to comb mutual shooting method to obtain 10 ^-18the bibliographical information of degree of stability.But for most of femtosecond laser laboratory, femtosecond laser frequency comb system remains a complexity, huge, expensive system, thus comb stable measurement evaluation is frequently carried out with it, method is no doubt feasible, but conditional request is too high, except a few experiments is outdoor, most of laboratory is difficult to carry out this work, but faces the realistic problem of the femtosecond laser frequency comb stability measurement of institute's development and application.

Summary of the invention

The object of the invention is to comb the mutual beat frequency technology problem high to equipment requirement to overcome existing pair of light, proposing a kind of measuring method and device of frequency stability of femtosecond laser frequency comb.

The present invention is achieved by the following technical solutions.

The measuring method of a kind of frequency stability of femtosecond laser frequency comb of the present invention, extracts repetition frequency f in the spectrum that the method is produced by femtosecond laser frequency comb respectively _rwith deviation frequency f ₀, both have been locked in the reference frequency of atomic clock; The frequency of atomic clock synthesizes acquisition one close to deviation frequency f through frequency synthesizer ₀frequency values, with deviation frequency f ₀the difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer A ₀, read difference frequency Δ f with the temporal frequency counter A that base time outer locks onto on atomic frequency ₀, and pass to computing machine, the difference frequency Δ f obtained with computer calculate ₀namely degree of stability is deviation frequency f ₀stable measurement value δ ₀, it is stated with Allan standard deviation usually.It is the deviation frequency f of the femtosecond laser frequency comb oneself eliminating atomic clock impact ₀degree of stability;

The frequency of atomic clock synthesizes acquisition one close to repetition frequency f through frequency synthesizer _rfrequency values, with repetition frequency f _rthe difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer B _r, read difference frequency Δ f with the temporal frequency counter B that base time outer locks onto on atomic frequency _r, and pass to computing machine, the difference frequency Δ f obtained with computer calculate _rnamely degree of stability is repetition frequency f _rstable measurement value δ _r, it is stated with Allan standard deviation usually.It is the repetition frequency f of the femtosecond laser frequency comb oneself eliminating atomic clock impact _rdegree of stability.

Its repetition frequency f is exported respectively by the photodetector of femtosecond laser frequency comb inside _rwith deviation frequency f ₀, they are locked onto on atomic frequency respectively by the phase locking frequency stabilized circuit of femtosecond laser frequency comb inside.The optical frequency f of its femtosecond laser frequency comb _nfor:

f _n=n×f _r+f ₀（1）

Wherein, n is the positive integer of the optical frequency sequence number representing femtosecond laser frequency comb, and magnitude is 10 ⁵~ 10 ⁶between.

Temporal frequency counter is locked onto on femtosecond laser frequency comb atomic frequency used, record repetition frequency f respectively by temporal frequency counter _rdegree of stability δ _rwith deviation frequency f ₀degree of stability δ ₀, be namely picked out the repetition frequency f that atomic clock affects the femtosecond laser frequency comb of part _rwith deviation frequency f ₀degree of stability, will both synthesize with side and root mode according to formula (1), can obtain femtosecond laser frequency comb pick out atomic clock impact n-th comb frequency degree of stability δ _n:

${\mathrm{\δ}}_n=\sqrt{n^2\×{\mathrm{\δ}}_r^2+{\mathrm{\δ}}_0^2}---\left(2\right)$

The measurement mechanism of a kind of frequency stability of femtosecond laser frequency comb of the present invention, comprises femtosecond laser frequency comb 1, atomic clock 2, frequency synthesizer 3, frequency mixer A4, temporal frequency counter A5, frequency synthesizer 6, frequency mixer B7, temporal frequency counter B8 and computing machine 9.

Repetition frequency f is extracted respectively in the spectrum produced by femtosecond laser frequency comb 1 _rwith deviation frequency f ₀, both have been locked in the reference frequency of atomic clock 2; The frequency of atomic clock 2 synthesizes acquisition one close to deviation frequency f through frequency synthesizer 3 ₀frequency values, with deviation frequency f ₀the difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer A4 ₀, read difference frequency Δ f with the temporal frequency counter A5 that base time outer locks onto in atomic clock 2 frequency ₀, and pass to computing machine 9, the difference frequency Δ f obtained is calculated with computing machine 9 ₀namely degree of stability is deviation frequency f ₀stable measurement value δ ₀, it is stated with Allan standard deviation usually.It is the deviation frequency f eliminating the femtosecond laser frequency comb 1 oneself that atomic clock 2 affects ₀degree of stability;

The frequency of atomic clock 2 synthesizes acquisition one close to repetition frequency f through frequency synthesizer 6 _rfrequency values, with repetition frequency f _rthe difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer B7 _r, read difference frequency Δ f with the temporal frequency counter B8 that base time outer locks onto in atomic clock 2 frequency _r, and pass to computing machine 9, the difference frequency Δ f obtained is calculated with computing machine 9 _rnamely degree of stability is repetition frequency f _rstable measurement value δ _r, it is stated with Allan standard deviation usually.It is the repetition frequency f of the femtosecond laser frequency comb oneself eliminating atomic clock impact _rdegree of stability.

Beneficial effect

Structure of the present invention is simple, cost is low, easily realize, by the mode using femtosecond laser frequency comb and temporal frequency counter, frequency synthesizer etc. to share same atomic clock reference frequency, the impact that atomic clock own frequency degree of stability causes is balanced out, thus obtains the repetition frequency, deviation frequency and the comb frequency stability measurement result that do not comprise the femtosecond laser frequency comb of atomic clock stability influence.

This frequency comb can be used for directly measuring the repetition frequency of femtosecond laser frequency comb, deviation frequency and comb frequency stability.

A kind of femtosecond laser frequency comb deviation frequency based on common reference frequency principle and repetition frequency stability measurement method.Be characterized in the frequency stability that can be obtained the femtosecond laser frequency comb far above the atomic frequency standard as locking reference on same device by simple frequency measurement, thus reach the object of femtosecond laser frequency comb being carried out to Basic Evaluation.

Accompanying drawing explanation

Fig. 1 is the structural representation of device of the present invention;

Wherein, 1 be femtosecond laser frequency comb, 2 be atomic clock, 3 be frequency synthesizer, 4 be frequency mixer, 5 be temporal frequency counter, 6 be frequency synthesizer, 7 be frequency mixer, 8 be temporal frequency counter, 9 for robot calculator.

Embodiment

Below in conjunction with drawings and Examples, the present invention will be further described.

Embodiment

A kind of measuring method of frequency stability of femtosecond laser frequency comb and device, as shown in Figure 1, femtosecond laser frequency comb 1, atomic clock 2, frequency synthesizer 3, frequency mixer 4, temporal frequency counter 5, frequency synthesizer 6, frequency mixer 7, temporal frequency counter 8, robot calculator 9 is comprised.

Repetition frequency f is extracted respectively in the spectrum produced by femtosecond laser frequency comb 1 _r=350MHz and deviation frequency f ₀=20MHz, both have been locked on the reference frequency 10MHz of atomic clock 2.The frequency of atomic clock 2 synthesizes acquisition one close to deviation frequency f through frequency synthesizer 3 ₀frequency values 15MHz, with deviation frequency f ₀the difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer 4 ₀=5MHz, reads difference frequency Δ f with the temporal frequency counter 5 locked onto in atomic clock 2 frequency of base time outer ₀, and pass to computing machine 9, the difference frequency Δ f obtained is calculated with computing machine 9 ₀namely degree of stability is deviation frequency f ₀stable measurement value δ ₀, it is stated with Allan standard deviation usually.It is the deviation frequency f eliminating the femtosecond laser frequency comb 1 oneself that atomic clock 2 affects ₀degree of stability.

The frequency of atomic clock 2 synthesizes acquisition one close to repetition frequency f through frequency synthesizer 6 _rfrequency values 360MHz, with repetition frequency f _rthe difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer 7 _r=10MHz, reads difference frequency Δ f with the temporal frequency counter 8 locked onto on atomic clock 2 frequency 10MHz of base time outer _r, and pass to computing machine 9, the difference frequency Δ f obtained is calculated with computing machine 9 _rnamely degree of stability is repetition frequency f _rstable measurement value δ _r, it is stated with Allan standard deviation usually.It is the repetition frequency f of the femtosecond laser frequency comb oneself eliminating atomic clock impact _rdegree of stability.

The femtosecond laser frequency comb comb using the method for the invention to obtain frequently degree of stability can reach the effect of a number magnitude higher than atomic clock degree of stability.

The above is preferred embodiment of the present invention, and the present invention should not be confined to the content disclosed in this embodiment and accompanying drawing.Every do not depart from spirit disclosed in this invention under the equivalence that completes or amendment, all fall into the scope of protection of the invention.

Claims (4)

1. a measuring method for frequency stability of femtosecond laser frequency comb, is characterized in that: extract repetition frequency f respectively in the spectrum that the method is produced by femtosecond laser frequency comb _rwith deviation frequency f ₀, both are locked onto in the reference frequency of atomic clock; The frequency of atomic clock synthesizes acquisition one close to deviation frequency f through first frequency compositor ₀frequency values, with deviation frequency f ₀the difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer A ₀, read difference frequency Δ f with the temporal frequency counter A that base time outer locks onto on atomic frequency ₀, and pass to computing machine, the difference frequency Δ f obtained with computer calculate ₀namely degree of stability is deviation frequency f ₀stable measurement value δ ₀;

The frequency of atomic clock synthesizes acquisition one close to repetition frequency f through second frequency compositor _rfrequency values, with repetition frequency f _rthe difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer B _r, read difference frequency Δ f with the temporal frequency counter B that base time outer locks onto on atomic frequency _r, and pass to computing machine, the difference frequency Δ f obtained with computer calculate _rnamely degree of stability is repetition frequency f _rstable measurement value δ _r;

The optical frequency f of femtosecond laser frequency comb _nfor:

f _n＝n×f _r+f ₀

Wherein, n is the positive integer of the optical frequency sequence number representing femtosecond laser frequency comb, and magnitude is 10 ⁵~ 10 ⁶between; Femtosecond laser frequency comb picks out the degree of stability δ of the n-th comb frequency of atomic clock impact _n:

${\mathrm{\δ}}_n=\sqrt{n^2\×{\mathrm{\δ}}_r^2+{\mathrm{\δ}}_0^2}.$

2. the measuring method of a kind of frequency stability of femtosecond laser frequency comb according to claim 1, is characterized in that: close to deviation frequency f ₀frequency values and f ₀difference be 5MHz.

3. the measuring method of a kind of frequency stability of femtosecond laser frequency comb according to claim 1, is characterized in that: close to repetition frequency f _rfrequency values and f _rdifference be 10MHz.

4. a measurement mechanism for frequency stability of femtosecond laser frequency comb, is characterized in that: comprise femtosecond laser frequency comb (1), atomic clock (2), first frequency compositor (3), frequency mixer A (4), temporal frequency counter A (5), second frequency compositor (6), frequency mixer B (7), temporal frequency counter B (8) and computing machine (9);

Repetition frequency f is extracted respectively in the spectrum produced by femtosecond laser frequency comb (1) _rwith deviation frequency f ₀, both have been locked in the reference frequency of atomic clock (2); The frequency of atomic clock (2) synthesizes acquisition one close to deviation frequency f through first frequency compositor (3) ₀frequency values, with deviation frequency f ₀the difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer A (4) ₀, read difference frequency Δ f with the temporal frequency counter A (5) that base time outer locks onto in atomic clock (2) frequency ₀, and pass to computing machine (9), the difference frequency Δ f obtained is calculated with computing machine (9) ₀namely degree of stability is deviation frequency f ₀stable measurement value δ ₀;

The frequency of atomic clock (2) synthesizes acquisition one close to repetition frequency f through second frequency compositor (6) _rfrequency values, with repetition frequency f _rthe difference frequency Δ f of both mixing acquisitions is carried out through frequency mixer B (7) _r, read difference frequency Δ f with the temporal frequency counter B (8) that base time outer locks onto in atomic clock (2) frequency _r, and pass to computing machine (9), the difference frequency Δ f obtained is calculated with computing machine (9) _rnamely degree of stability is repetition frequency f _rstable measurement value δ _r.