There's a lot of people here with esoteric knowledge of lasers, because they're generally incredible devices (along with masers). Someone should be able to comment.

I wish we had a large laser manufacturing ability in the West. I would say 95% of lasers of all kinds are manufactured in China.

It’s like any other fundamental research: you don’t know how much it’s worth until people start using it to solve real problems. This is something that is literally impossible to guess ahead of time. The most abstract mathematical techniques could turn into a trillion–dollar industry (number theory begat RSA encryption which now underpins _everything_ we do).

But I will say that precise control of laser wavelength is critical to today’s communication technologies. I doubt their new techniques will be useless.

There is there there...

The substance is they've created a way to fabricate a device that can make the optical frequencies they wish. That is useful: it means a designer isn't limited to frequencies that are economic to generate with existing techniques, which is a constraint that lasers currently struggle with: low cost, compact, efficient laser sources (the kind that fit on a chip, and are fabricated by cost effective processes,) only exist for a limited number of frequencies.

The story is typical tech journalism pabulum, but the underlying paper does discuss efficiency. It's about what you'd expect: 35 mW -> 6 mW @ 485 nm, for example.

The obvious use case is multimode fiber communication: perhaps this makes it possible to use more frequencies for greater bandwidth and/or make the devices cheaper/smaller/more efficient.

Depends on the cost. We already have variable wavelength lasers. We have had them for years. They are currently expensive, large, and not the easiest things to control electronically.

I have an application in mind for this technology outside of photonic computing. Again, it depends entirely on price, tunability, bandwidth of the profile, etc. My understanding of the photocomputing field is limited but I never thought the major issues were wavelength related? Maybe someone can educate me.

If anyone wants to send me one of these I would be pumped.

I think it's more relevant for quantum computing. The ions we choose for ion trap quantum computers are in part due to what wavelengths are excitable by modified telecom lasers, because they're the wavelengths that are easiest to produce and where the most research/stability/miniaturization has been focused. If the laser wavelength is configurable to this degree then it no longer becomes a constraint, and maybe you can choose single ions with different characteristics.

Immediately:

* You can pack many more different colors into fiber optic communication lines. Every color carries a few tens of GHz in modulation, but the carrier light is in hundreds of THz; there's a ton of bandwidth not used between readily available colors.

* You can likely do interesting molecular chemistry by precisely adjusting laser light to the energy levels of particular bonds / electrons.

* Maybe you can precisely target particular wavelengths / absorption bands for more efficient laser cutting and welding, if these adjustable lasers can be made high-power.

Well, since I'm not that smart, I asked an AI (M5-ST-TOS) to think out loud for me. It said that, if true, possible applications could be:

1. Portable Optical Diagnostics (Lab‑Grade Scanning in a Pocket Device) aka Star Trek Tricorder.

2. Non‑Invasive Brain & Neural Imaging (Next‑Gen fNIRS / Optogenetics).

3. Precision Photomedicine (Targeted Light‑Based Therapies).

4. Medical‑Grade Wearables & Implantables.

5. Ultra‑Precise Medical Navigation & Imaging Calibration.

6. Drug Discovery & Molecular Research Tools.

7. Telemedicine & Remote Diagnostics.

That's just in the medical field :)

Magenta is the Doom of colour lasers by the look of it.

Pedantry for pedantry, you're in luck as the title says they created 'any wavelength lasers' not 'any wavelength laser' so you can make any such combos you like rather than the fixed set now (if true) :p.

Can I interest you in indigo or violet? Or a nice orange?