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Brimrose提供可靠的常见问题包括Brimrose产品、服务、软件以及硬件的解答。点击主题标题以及您想咨询的常见问题,能够迅速定位到您点击的常见问题的解答。如果您在常见问题解答中没有找到相应的答案,请与office@brimrose.com联系。
常见问题解答
什么是声光(“Acousto-Optics”)

Acousto-Optics (AO) is using the phase grating set up by sound waves inside a material to affect a light beam passing through the material. The sound wave is created by a piezeo-electric transducer bonded to the material (think: ‘joy buzzer.’). The transducer is excited by a RF source.
什么是声光可调谐滤波器(AOTF)

An AOTF is a device, where putting a mixture of wavelengths into it, one wavelength can be separated (diffracted) out by electronic means. To clarify, except for minor transmission losses, all the light input into one side will be output to the other side; However, the chosen wavelength will be output at an angle different from that of the rest of the light. By means of an aperture, the ‘rest of the light’ (Zero Order) can be blocked, and the chosen wavelength will be the only light emitted. All the ‘chosen light’ (diffracted order, First Order) will be output at roughly the same angle. The ‘electronic means’ is a source of a specific RF frequency for a specific wavelength. The aperture, wavelength range, spectral resolution, and other possible desire data of a given AOTF depend on the details of its construction, and to some degree can be selected.
声光调制器和声光移频器之间的区别是什么?

A Modulator is used to change the amplitude of the light signal passing through it. A Frequency Shifter gives a ‘Doppler Shift’ to the frequency of the beam passing through it. That said, a Modulator also gives the signal a small frequency shift, unless a No Frequency Shift model is purchased. Similarly, the amplitude to a Frequency Shifter can often be varied to amplitude modulate the beam passing through it. So to some extent they are interchangeable.
什么是载波频率及其重要性?

The carrier frequency (reading the model number left to right, generally the first number in the model number,) is the frequency shift given to the light beam. The frequency of light is so high (~ 10**15 Hz) that the shift imparted ( ~ 10**8 Hz) is generally negligible. It is the frequency of the grating the acoustics creates in the crystal.
为什么我要重视我购买的调制器的载波频率?

Modulating is creating and collapsing the sound grating in the crystal; this must be done fast enough to support the modulation rates you want to achieve. In terms of specifications, the carrier frequency should be approximately four times the digital modulation bandwidth; the RF bandwidth quoted should be twice the digital modulation rate wanted, and the RF bandwidth should be approximately four times the analog bandwidth wanted. In terms of functional devices, the smaller the active aperture/beam size, the higher the modulation rates possible.
什么是布拉格角(Bragg angle)及其重要性?

Except for Acousto-Optic Tunable Filters, the incoming light beam needs to be at the Bragg Angle for the light-acoustic interaction to occur in the crystal. The Bragg angle should be specified in the manual or can be calculated from: sin (Bragg angle) = (Wavelength x Frequency)/(2 x Acoustic velocity in crystal). You can set the device at the Bragg angle and then try translating, but generally the angle is small and set up imprecise, so the empirical way to do it is to put a slow (to the eye, 3 Hz works well) modulation on the carrier frequency, and watch for a blinking spot as the device is slowly rotated around the Bragg angle. The blinking is the First Order (diffracted spot) appearing, or the Zero Order dimming as energy is taken from it to the First Order. Once the angle is found at which the blinking occurs, (the ‘Bragg angle’,) the alignment can be optimized up/down, in/out/ and around.
如果AO装置旋转或上下里外移动,衍射级次的强度降低,有没有其它因素影响对准?

The light beam inside the device should be parallel to the electrode to feel the full affect of the acoustic beam. Except in Brewster Cut devices, the electrode is in a normal (perpendicular) direction to the optical faces. Thus to start aligning, the incoming beam should retro-reflect from the front optical. If you have a sensitive source, you may not want the retro-reflection back into a source that could cause run away gain and burn out your source; if this is the case, have the reflection from the AO device to reflect to the side of the source. By the way, acousto-optics is by and large reversible, and it doesn’t matter which side of the AO device is ‘In’ and which side is used as ‘Out.’ You may see 2 retro-reflected spots, one from the front face and one from the back face; the faces are not parallel so the device can not act as an etalon.
我可以复印产品和应用咨询表格吗?

You may not make copies of all products and application forms, which are available only on the Brimrose website. The only way that all the forms can work is when a form handler script that provided by Yahoo web hosting will interpret the form information you place on the form and pass it along to an appropriate destination. These online forms enable our office to process your application faster and more efficiently.
我想购买一台最快、最大孔径、最有效的AO装置。

It is a compromise, as is most of life. The rise time depends on how fast the sound beam crosses the size of the light beam; so using larger light beams will mean slower devices; and generally, the faster acoustic speeds are in lesser efficient materials. In addition, faster devices use higher sound frequencies which attenuate faster in materials. So, details Please? Tell us what you want to do, and we can probably figure out a way to do it. Almost everything we do is custom made, to some extent.
为什么不能从购买的自由空间声光器件发现任何衍射级次?

Well, it could be many things, but usually the problem is in alignment.

The light beam needs to intersect the acoustic beam. The acoustic beam height is the ‘Active Aperture’ usually found in the manual. It is smaller than the window size in the case cover to allow for focusing and for the angles involved. Thus, the device may need to be translated in the direction across the acoustic beam. You can not see the acoustic beam, but it is emitted from the transducer, which is generally the side that the “Brimrose” label is on. Especially in higher frequency devices, you may need to translate the device so the light beam is closer to the transducer. The acoustic beam does attenuate as it travels in the crystal, so the strongest acoustic beam is nearest the transducer. Again, the transducer side is generally the side nearest the “Brimrose” label.

我看不到任何衍射。当我将电阻表(欧姆表)连接到连接器上测接口时,电阻表显示“短路”/“开路”,这意味着该装置坏了吗?

Not necessarily. The Ohmmeter is meant to work with DC voltages; AO devices work at frequencies generally in the MHz or higher frequencies. Inside the AO device is a circuit that enables the RF power supplied to better excite the transducer; in the circuit may be inductors that show ‘short’ at low frequencies, and capacitors that show ‘open’ at low frequencies. The resistance/impedance is frequency dependent, and requires a RF Vector- or Scalar- Network Analyzer to measure.
如果Snap32!软件被锁定,无法登录,该怎么办?

任何管理员帐户都可以打开snap32!帐户。如果所有的管理员帐户被锁定,用户则需要更换user.par文件。单击此链接了解详细说明。
Brimrose提供什么化学计量学软件?

Brimrose提供Camo公司的The Unscrambler化学计量软件包以及Eigenvector Solo化学计量软件。
Snap32! Predictor程序可以支持过程监控。什么是过程监控?什么时候使用?

在一个操作过程中,在某特定光谱波长范围内的反应会随着成分的创建或消耗而发生改变。通过监测几个随时间推移的波长的响应,过程监控功能很容易鉴别一个操作过程是否完成。

过程监控允许操作员显示一个特定波长随着时间变化的曲线图。过程监控功能允许监控多达20个不同波长,并且每个波长显示在各自图形上。
如果使用Snap32! Predictor程序的过程监控功能,需要什么准备工作?

若要使用Snap32! Predictor程序的过程监控功能,必须创建一个扩展名为".ini"的文本文件。该文本文件指定将要被监控的波长。请查看 C:\Program Files (x86)\Brimrose\snap32\doc\SUMan-Predictor32-v2.11-20160330.pdf 过程监控手册了解详细说明。