TaIrTe₄ photodetectors show promise for sensitive room-temperature THz sensing phys.org 18 points by wglb 6 days ago
Y_Y 2 days ago > We fabricated Har bar geometry sensing devices using atomically thin TaIrTe₄,I've never heard of a "Har bar" not its geometry, but apparently neither has Google. perching_aix 2 days ago GPT-4o did hear of a "Hall bar geometry" though and suggested it's a typo. That one does return results on Google as well, and makes sense in context too. meepmorp 2 days ago Yeah, there's this line in the original paper:> Accordingly, we measured the nonlinear Hall transport in a few-layer sample with a Hall bar device geometry at room temperature
perching_aix 2 days ago GPT-4o did hear of a "Hall bar geometry" though and suggested it's a typo. That one does return results on Google as well, and makes sense in context too. meepmorp 2 days ago Yeah, there's this line in the original paper:> Accordingly, we measured the nonlinear Hall transport in a few-layer sample with a Hall bar device geometry at room temperature
meepmorp 2 days ago Yeah, there's this line in the original paper:> Accordingly, we measured the nonlinear Hall transport in a few-layer sample with a Hall bar device geometry at room temperature
DFHippie 2 days ago Tantalum, iridium, and tellurium? How expensive is this stuff? philipkglass 2 days ago These materials are pretty expensive. Tellurium is currently about $86/kg, tantalum $430/kg, and iridium $140,000/kg:https://www.dailymetalprice.com/metalpricecharts.php?c=ir&u=...https://www.metal.com/en/markets/20But it's a "2d material" so it only takes a tiny atomically thin quantity of these elements to build a detector:https://news.columbia.edu/news/what-are-2d-materials-and-why...
philipkglass 2 days ago These materials are pretty expensive. Tellurium is currently about $86/kg, tantalum $430/kg, and iridium $140,000/kg:https://www.dailymetalprice.com/metalpricecharts.php?c=ir&u=...https://www.metal.com/en/markets/20But it's a "2d material" so it only takes a tiny atomically thin quantity of these elements to build a detector:https://news.columbia.edu/news/what-are-2d-materials-and-why...
K0balt 2 days ago Is this good for making tricorders? ‘Cause if it ain’t good for making tricorders I don’t give a rats a&&.But seriously, THz imaging ins going to be wild.
The paper in Nature: https://www.nature.com/articles/s41928-025-01397-z
> We fabricated Har bar geometry sensing devices using atomically thin TaIrTe₄,
I've never heard of a "Har bar" not its geometry, but apparently neither has Google.
GPT-4o did hear of a "Hall bar geometry" though and suggested it's a typo. That one does return results on Google as well, and makes sense in context too.
Yeah, there's this line in the original paper:
> Accordingly, we measured the nonlinear Hall transport in a few-layer sample with a Hall bar device geometry at room temperature
Tantalum, iridium, and tellurium? How expensive is this stuff?
These materials are pretty expensive. Tellurium is currently about $86/kg, tantalum $430/kg, and iridium $140,000/kg:
https://www.dailymetalprice.com/metalpricecharts.php?c=ir&u=...
https://www.metal.com/en/markets/20
But it's a "2d material" so it only takes a tiny atomically thin quantity of these elements to build a detector:
https://news.columbia.edu/news/what-are-2d-materials-and-why...
Is this good for making tricorders? ‘Cause if it ain’t good for making tricorders I don’t give a rats a&&.
But seriously, THz imaging ins going to be wild.