Your problem. Read some of Michael Porter’s books on competition. In an economic interaction, all players compete with each other. The Times thinks it’s in its interest to try to brainwash you with some garbage.
Just want to remind people that the deBroglie wavelength of light IS its wavelength, here 0.5-1.5 um. This is gigantic compared to that of electrons in semiconductors. So there is no VLSI for optical computation. None. Zero. Bupkis. Lasers, except perhaps for some very esoteric applications, will be confined to the periphery where waveguides and fiber are rapidly supplanting copper. By the way, at least $1B has been wasted by VC’s who did not understand the no-VLSI physics barrier.
I should add that analytical device applications of this technology look almost limitless, being able to simplify, shrink, and cheapen thousands of optical instrumentation types. This is a huge market, and will lead to better healthcare, pharmaceuticals and industrial monitoring. Displays are another area, and military, policing, criminology, another. Having a narrowband laser of your choice of wavelength is the holy grail here.
The problem is right in the prologue. “Every piece of evidence we have for objective reality is itself a subjective experience.” But people do independent experiments. And the results agree. That’s a much stronger statement.
The late Harold DuBose of Spectra-Physics, repeatedly used 555's as power inverters in the electronic design of a frequency stabilized ring dye laser. He liked the strength of the output transistor.
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