CRTs are potentially worse. It takes the electron beam 16 ms to paint the screen. If the electron beam is halfway down the screen and you change a pixel right above where the beam just painted, you'll have to wait 16 ms before you see anything change.
All CRT displays attached to computers in the last 40 years were driven from memory buffers just like LCDs, and those buffers were typically only allowed to change while the electron beam was "off", i.e. moving from the bottom of the screen back to the top. Letting the buffer change while the beam is writing results in "tearing" the image, which was usually considered a bad thing.
As you said that article seemed to be more about the appearance of objects on a CRT than lag, and I kind of agree with the nostalgia crowd in that respect. But [raster] CRT lag is always going to be 16ms (worst case) and will never be better, while LCDs can in theory run much faster as technology improves.
If we shift the discussion to vector CRTs (which have no pixels) such as the one the old Tempest [0] game used, the CRT has a major advantage over an LCD and the lag can in principle be whatever the application programmer wants it to be. I miss vector games and there's really no way to duplicate their "feel" with LCDs.
> CRTs are potentially worse. It takes the electron beam 16 ms to paint the screen.
Back when I had CRTs, 60Hz displays were the older, less-common, cheapo option. I'm having a hard time remembering a CRT display that wasn't at least 75Hz (I believe this was the VESA standard for the minimum to be flicker-free), but most of the monitors I used had refresh rates in the 80-90Hz range. I remember a beautiful higher-end CRT that had a refresh rate around 110Hz.
85Hz gives you a frame time of 11ms, which doesn't sound much better, but is a 30% improvement over 16ms.
I don't think you can get a display slower than a TV, and they do in fact update at ~60Hz (or 50Hz, depending on region). Of course you're probably only getting VGA, 240p, or less in terms of pixels.
> CRTs are potentially worse. It takes the electron beam 16 ms to paint the screen. If the electron beam is halfway down the screen and you change a pixel right above where the beam just painted, you'll have to wait 16 ms before you see anything change.
This is exactly the same as LCDs though, no? LCDs are also drawing an entire frame at a time, they're not "random access" for lack of a better term. There's just typically no image processing going on with a CRT* though, so there's no inherent latency beyond the speed of the electron gun and the speed of light.
*I'm aware there were some later "digital" CRT models that did analog->digital conversion, followed by some digital signal processing on the image, then digital->analog conversion to drive the gun.
All CRT displays attached to computers in the last 40 years were driven from memory buffers just like LCDs, and those buffers were typically only allowed to change while the electron beam was "off", i.e. moving from the bottom of the screen back to the top. Letting the buffer change while the beam is writing results in "tearing" the image, which was usually considered a bad thing.