![Electronics | Free Full-Text | Optimal Physical Implementation of Radiation Tolerant High-Speed Digital Integrated Circuits in Deep-Submicron Technologies Electronics | Free Full-Text | Optimal Physical Implementation of Radiation Tolerant High-Speed Digital Integrated Circuits in Deep-Submicron Technologies](https://www.mdpi.com/electronics/electronics-08-00432/article_deploy/html/images/electronics-08-00432-g006.png)
Electronics | Free Full-Text | Optimal Physical Implementation of Radiation Tolerant High-Speed Digital Integrated Circuits in Deep-Submicron Technologies
![If the surface of a metal is exposed to radiation of 2. = 350 nm and 2n = 450 nm, the maximum speed of photoelectrons in the first is twice that of If the surface of a metal is exposed to radiation of 2. = 350 nm and 2n = 450 nm, the maximum speed of photoelectrons in the first is twice that of](https://toppr-doubts-media.s3.amazonaws.com/images/1773347/ac94f40c-1cee-40cb-9280-f38b76331ba6.jpg)
If the surface of a metal is exposed to radiation of 2. = 350 nm and 2n = 450 nm, the maximum speed of photoelectrons in the first is twice that of
![A metal of work function 4 eV is exposed to a radiation of wavelength 140 × 10^-9 m. Then the sto... - YouTube A metal of work function 4 eV is exposed to a radiation of wavelength 140 × 10^-9 m. Then the sto... - YouTube](https://i.ytimg.com/vi/naX-nXsj1gs/hq720.jpg?sqp=-oaymwEhCK4FEIIDSFryq4qpAxMIARUAAAAAGAElAADIQj0AgKJD&rs=AOn4CLD538PLHBZ5ENHNWQmsXeysMlwRYg)
A metal of work function 4 eV is exposed to a radiation of wavelength 140 × 10^-9 m. Then the sto... - YouTube
![If the surface of a metal is exposed to radiation of = 350 nm and lambda1 = 350 nm , the maximum speed of photoelectrons in the first case is twice that If the surface of a metal is exposed to radiation of = 350 nm and lambda1 = 350 nm , the maximum speed of photoelectrons in the first case is twice that](https://dwes9vv9u0550.cloudfront.net/images/2051390/a0b6492d-ed45-4ae9-ae12-f5620afda2dc.jpg)
If the surface of a metal is exposed to radiation of = 350 nm and lambda1 = 350 nm , the maximum speed of photoelectrons in the first case is twice that
![aluminum heat sink of super conductor high speed chip preventing overheating burning conducting radiation heating cooling pc Stock Photo - Alamy aluminum heat sink of super conductor high speed chip preventing overheating burning conducting radiation heating cooling pc Stock Photo - Alamy](https://c8.alamy.com/comp/F7G89F/aluminum-heat-sink-of-super-conductor-high-speed-chip-preventing-overheating-F7G89F.jpg)
aluminum heat sink of super conductor high speed chip preventing overheating burning conducting radiation heating cooling pc Stock Photo - Alamy
![A) Ligaliu lu lelal na ge udisie (C) d-d transition (D) Me (D) o to o U T U Unge udster transition 16. When ultraviolet light of wavelength 165 nm strikes a A) Ligaliu lu lelal na ge udisie (C) d-d transition (D) Me (D) o to o U T U Unge udster transition 16. When ultraviolet light of wavelength 165 nm strikes a](https://toppr-doubts-media.s3.amazonaws.com/images/8215987/faaa1dd3-acdb-407f-9b46-77f8c760078a.jpg)