BOA Compressor Overview

Background

When ultrashort pulses propagate through material, they spread in time due to group-delay dispersion (GDD). The red colors propagate faster than blue colors, lengthening the pulse - we say that the resulting pulse becomes “chirped” - one of the reasons we need to measure it. Pulse compressors have negative GDD and so compensate for the positive GDD of material. But, if not aligned perfectly, the pulse compressor can introduce its own distortions: spatial chirp and pulse-front tilt. We have found that most pulses are contaminated with these distortions.

Why? The original four-prism pulse compressor is shown above. Unfortunately, when the pulse wavelength is tuned, all four prisms must be rotated by precisely the same amount (thick pink arrows). Also, coarse and fine GDD-tuning are separate. Worse, coarse-tuning the GDD requires changing the separations between the first two and last two prisms, maintaining them precisely equal (thick purple arrows). If any of the prisms has a different incidence angle, then the output pulse will have spatio-temporal distortions.

Fortunately, researchers realized quickly that they could reduce the number of prisms to two. This avoids the need for maintaining equal prism separations (note only one thick purple arrow). Unfortunately, when the wavelength of the input pulse is tuned, both prisms must still be rotated by precisely the same amount (thick pink arrows). And this design still requires a complex arrangement for coarse and fine-tuning the GDD.

Swamp Optics’ new single-prism pulse (“BOA”) compressor solves all of these problems. The precisely manufactured corner-cube retro-reflector reflects the beam back precisely parallel with the beam entering it. Also, it inverts the beam, so it isn’t necessary to invert the prism. This avoids all the distortions of two- and four-prism designs. Also, note that only the one prism angle needs to be rotated when the input wavelength is tuned, and only one distance (the prism-corner-cube distance) needs to be changed to tune the GDD. Even better, because the distance between the prism and corner cube is double-passed, the BOA compressor is half as large as an equivalent two-prism compressor. This simplicity yields a more compact, more convenient, non-distorting, and much less expensive device. And it works beautifully!

Yet another advantage of the BOA compressor is that it—unlike all other compressors—can be used with either broadband or narrowband pulses. The bandwidth of a prism pulse compressor is limited by beam cropping of the angularly dispersed beam at the second prism (or at the second pass through the single prism in the case of the BOA). The greater the bandwidth of the pulse and the greater the prism separation (i.e., the required GDD), the more potential for such cropping. Conventional pulse compressors tune the GDD by inserting one of the prisms into or out of the beam and always operate at their maximum prism separation. As a result, designing a conventional pulse compressor requires committing to a pulse bandwidth and maximum negative GDD. Conventional narrowband compressors achieve large negative GDD, but cannot be used with broadband pulses. Conventional broadband compressors can be used for narrowband pulses, but they achieve only limited negative GDD. The BOA, on the other hand, tunes the GDD by translating the corner cube, thus varying the prism separation. This allows it to simultaneously operate at a large separation (GDD) for narrowband (<40 nm) pulses and also for broadband (>100 nm) pulses (which require less separation and GDD). Thus the BOA is much more versatile and can be used for many pulses. If you currently have a narrowband ~100fs system but are thinking of going to a broadband ~10fs system, you don’t need to decide between two different compressors; one BOA will work for both systems! See below.

The Details

We offer a range of wavelengths and bandwidths. Click on the button below to download the BOA Compressor brochure.

Read more about BOA Compressor

The Pulse Compression Tutorial reveals the BOA Compressor's patented inner workings and the science behind the pulse compressor's capabilities.

The BOA Compressor was also featured in Laser Focus World (July 2006) and detailed in Optics Express [OE 14, 10101 (2006)].