GATE Paper Analysis 2023: IIT Kharagpur has successfully conducted the GATE 2023 exam on 5, 6, 12, and 13 February 2023. Find the GATE 2023 paper review and detailed topic-wise analysis here.
the gate general aptitude section is common for all the papers of gate 2023, amounting to 15 marks of the total 100 for a paper. hence, the candidates must know about the gate general aptitude syllabus 2023 if they want to ace the exams. q2 how to access the gate general aptitude ...
For 2023: GATE Paper Code Qualifying Cut off Marks General OBC-NCL/ EWS SC/ ST/ PWD Physics 31.1 27.9 20.7 CE 26.6 23.9 17.7 Statistics 25 22.5 16.6 Electrical Engineering 25 22.5 16.6 XE 37.9 34.1 25.2 ECE 29.9 26.9 19.9 CH 32.10 – – Mechanical Engineering (ME) 28.4 25.5 18.9 CS 32...
All communication details will be sent to candidate’s registered number & ID, so it must be valid/ working. The last date to apply for GATE 2024 exam is till 12th October 2023 without any late fee. With late fee, last date to register is till20th October 2023. At last, candidates mus...
In this paper, we present an analysis on the charge-retention characteristics of a synaptic TFT with a single layer of the gate oxide. For a low-power consumption, the synaptic TFT is operated in the sub-threshold region with a read voltage less than the threshold voltage. In the fabricated...
Electrical properties of hybrid AlOx/SAM dielectrics Although it is possible to use the bare, plasma-grown AlOx films discussed above as the gate dielectric for organic TFTs40,60,61, the often-preferred option is a hybrid gate dielectric in which the AlOx is complemented by a phosphonic-acid ...
providing a method for converting low-grade waste heat into electrical energy. Experiments reveal that with a 3 M KCl solution and a 50 K temperature difference, the membrane generates an output power density of 5.70 W m−2. Furthermore, guided by a short-range ionic screening me...
On-demand electrical control of spin qubits Article 12 January 2023 Adiabatic quantum state transfer in a semiconductor quantum-dot spin chain Article Open access 12 April 2021 Introduction Precise manipulation of coupled quantum systems is at the heart of quantum technologies. Quantum gates acting...
The gate-type carbon nanotubes cathodes exhibit advantages in long-term stable emission owing to the uniformity of electrical field on the carbon nanotubes, but the gate inevitably reduces the transmittance of electron beam, posing challenges for system
Strontium titanate (SrTiO3), an oxide of strontium and titanium with a perovskite structure, has many advantageous properties, including spin-orbit coupling, electrical tunability, and unconventional superconductivity. Compared ...