Jack Kilby at Texas Instruments and Robert Noyce at Fairchild did not require tens of billions of dollars. Sherman Fairchild invested 1.3 million and the treacherous eight each put in $500. Fairchild did have the right to purchase the firm for $3 million, which of course he exercised. Similarly, Shockley's lab was funded by a $1 million grant in the 50s.

There is a lot of handwaving going on here to justify the incredibly cheap, mostly privately funded investments that launched the computer generation with the massively expensive, extremely gradual gains we are making now with particle accelerators. Part of it is that people just can't imagine how little was invested in R&D to get these stunning results, given how much we have to invest today to get much less impressive results, so they just assume that semiconductors could not have been invented without tens of billion dollars of research.

There is diminishing returns, just as a 90nm process is really all you need to get 90% of the benefits of computerization -- you can drive industrial automation just fine, all the military applications are fine, etc. But to go from a 90nm process to a 3nm process is an exponential increase in costs. In a lot of fields we are at that tail end where costs are incredibly high and gains are very low, and new fields will need to be discovered where there is low hanging fruit, and those fields will not require "tens of billions" of dollars to get that low hanging fruit.

Even with particle accelerators, SLAC cost $100 million to build and generated a massive bounty of discoveries, dwarfing the discoveries made at CERN.

To pretend that there is no such thing as a curve of diminishing returns, and to say that things have always been this way is to not paint an accurate picture of how science works. New fields are discovered, discoveries come quickly and cheaply, the field matures and discoveries become incremental and exponentially more expensive. That's how it works. For someone who is in a field on the tail end of that process, it's not good history to say "things have always been this way and have always cost this much".

> This kind of slow, incremental improvement that costs tens of billions of dollars and takes decades gave us the microchips that ultimately enabled you to type this comment on your phone/computer.

No. These two cases are absurdly different, and you're even completely misunderstanding (or misrepresenting) the meaning of the "tens of billions of dollars" figure.

Microchips were an incremental improvement where the individual increments yielded utility far greater than the investment.

For particle physics, the problem is that the costs have exploded with the size of facilities to reach higher energies (the "tens of billions of dollars" is for one of them) but the results in scientific knowledge (let alone technological advances) have NOT. The early accelerators cost millions or tens of millions and revolutionized our undestanding of the universe. The latest ones cost billions and have confirmed a few things we already thought to be true.

> Let the physicists build the damn thing and future society will be better off for sure.

Absolutely not.

Why can't some of these trillion dollar companies invest back in the quantum tech that got them there, if it's so certain there will be benefits? Why not Apple and Nvidia fund the next particle collider, and give something back to society instead of letting tax payers fund it so billionaires can privatize the profits?

I'm so sick of this "good guy approach". It didn't give us progress, it gave us those like Watt and Intel, highly celebrated bullshiters who stopped being relevant as soon as their IP deadlock expired.

I suppose the only solution is undeground science. Do enough progress in silence, dont disseminare the results, unless the superiority becomes so obvious that an armed resistance becomes unthinkable.