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- 15:04, 30 April 2022 Radio-Frequency shielding applied to RFID (hist | edit) [10,464 bytes] E0271462 (talk | contribs) (Created page with "==Team members== Jasper Phua (A0110690R) ==Radio-Frequency and its applications== Radio-frequency (RF) is a part of the electromagnetic spectrum typically in the range from 10kHz to 300GHz. RF technology is an integral part of our everyday lives. Common examples include phone signals, radio broadcast, ID cards used for various public transport and access control (RFID), various forms of wireless payments which we know as NFC (Near Field Communication). More niche appli...")
- 03:27, 30 April 2022 Resonance frequency measurement using a interferometric method (hist | edit) [11,432 bytes] Aucca (talk | contribs) (Created page with "== Team Members == * Nakarin Jayjong * Joel Auccapuclla * Xiaoyu Nie * Haotian Song == Introduction == Interferometers since their invention have been a great tool for experimental physics. Applications cover a wide spectrum of fields such as astronomy, fiber optics, seismology, seismology, velocimetry to say the least. The precision of measurement of small displacements is the key factor, take LIGO as an...")
- 16:20, 29 April 2022 Test (hist | edit) [0 bytes] E0271462 (talk | contribs) (Created page with "This is the project page of an example project. Start the page with a short description what this is about. The structure below is just a suggestion - use your judgement how you want to present your project. Also, feel free to generate additional pages if this page gets too busy. ==Team members== ==Idea== The aim of the project is to investigate the mechanism behind RFID technology that we may or may not have taken for granted. ==Background== Radio-frequency technology...")
- 08:06, 29 April 2022 Previous pages (hist | edit) [1,860 bytes] Zhenyuan (talk | contribs) (Created page with "==Current goals== Obtain enough setup to measure a pulse from an APD. For example: frameless|picture taken from <ref name="fypjanet"/>. This is the first goal to achieve before trying to improve ==Setup== * "test" setup: ** photon source >> laser attenuator >> APD >> ADC >> Raspberry Pi * control setup: ** photon source >> laser attenuator >> "Professional" SPCM >> ADC >> Raspberry Pi File:Apd_testing_kit_setup.png|frameless|a setup of AP...")
- 07:38, 29 April 2022 A digital oscilloscope Based on MCU (hist | edit) [14,859 bytes] Diandian (talk | contribs) (Created page with "== Introduction == We design a digital oscilloscope with STC8A8K64S4A12 chip as the control core, which mainly consists of two modules: hardware circuit and software program. The hardware module mainly includes OLED screen, voltage sampling circuit, clock system, power supply and management module and so on. The software module mainly includes A/D sampling, OLED display, interrupt timing and some necessary data processing. its measurable bandwidth is 0-3000Hz, the measur...")
- 08:13, 26 April 2022 Schlieren Imaging (hist | edit) [11,253 bytes] Jinyi (talk | contribs) (Created page with "==Idea== This project aims to ....")
- 07:56, 26 April 2022 Schlieren imaging (hist | edit) [104 bytes] Jinyi (talk | contribs) (Created page with "==Idea== This project aims to ....")
- 08:44, 25 April 2022 Argon gas discharge lamp (hist | edit) [23,880 bytes] Kunhee (talk | contribs) (Created page with "By applying a sufficiently high DC voltage across a gas, the gas atoms/molecules are ionised by the strong electric field. In this project, we construct an Argon-based gas discharge lamp, with adjustable pressure and voltage. The breakdown voltage of Argon gas with respect to pressure changes is observed, and compared with Paschen's law. We also observe changes in the spectroscopic properties of the plasma with varying pressure. ==Setup== File:Plasma-schematics.png|7...") originally created as "Characterisation of Argon gas discharge lamp"
- 08:08, 1 April 2022 Smoke detection in air (hist | edit) [6,381 bytes] Zhenyu (talk | contribs) (Created page with "Smoke detector is a device that senses smoke, typically as an indicator of fire. Commercial smoke detectors issue a signal to a fire alarm control panel as part of a fire alarm system. Household smoke detectors, also known as smoke alarms, generally issue an audible or visual alarm from the detector itself or several detectors if there are multiple devices interlinked [https://en.wikipedia.org/wiki/Smoke_detector]. <br /> The design of our Smoke detector can be describe...")
- 10:02, 29 March 2022 An interferometric method for measuring the resonance frequency of a vibrating system (hist | edit) [9,104 bytes] Aucca (talk | contribs) (Created page with "===An interferometric method for measuring the resonance frequency of a vibrating system===")
- 09:25, 15 March 2022 An interferometric method for measuring the resonance frequency of vibrating system (hist | edit) [8,407 bytes] Aucca (talk | contribs) (In this project, the resonance frequency of the vibrating system namely the vibration transducer is measured using a Michelson interferometer.)
- 12:45, 25 February 2022 Orbits of the Galilean Moons (hist | edit) [30,721 bytes] Matthew (talk | contribs) (Initial addition)
- 02:25, 23 February 2022 Quantum Random Number Generator (hist | edit) [22,723 bytes] Zhang Munan (talk | contribs) (Created page with "== Team Members == == Idea == == Setup == == Background reading ==")
- 06:19, 20 February 2022 Custom atomic beam source (hist | edit) [15,284 bytes] Tiangao (talk | contribs) (Created page with "'''Team members: Lu Tiangao, Li Putian''' '''Project Location: S14-03-lab2''' '''Items needed (as of 18 Feb 2022):''' * Custom CF feedthrough")
- 02:31, 15 February 2022 Contactless Conductivity Measurement (hist | edit) [18,778 bytes] E0732931 (talk | contribs) (Created page with "==Lab Location== Spintronics and Magnetic Materials Lab")
- 14:41, 10 February 2022 Anti-glare LCD (hist | edit) [53,287 bytes] Yuanyuan (talk | contribs) (Created page with "== Motivations == In this urban jungle, it is indeed difficult to get some nice peace and quiet. The demand to drown out background noise is probably part of the motivation why companies developing headphones/earphones are actively looking into noise-cancelling technology. The preliminary ideas for this project is to cheaply develop and demonstrate how noise cancelling can be done starting with basic equipment like a set of speakers as well as some microphones. == The...")
- 07:10, 9 February 2022 Characterization of Single Photon Counters (hist | edit) [25,001 bytes] Zhenyuan (talk | contribs) (Created page with "Characterization of APDs. (LOOKING FOR TEAM MEMBERS, just add your name to tag along) (Proposed by zhen yuan, feel free tag along/ edit this page to bounce ideas/methodology) ==Idea== Count single photons using the photoelectric effect. In simple terms, there is a semiconductor part and an electronics & signal processing part. The semiconductor part is responsible for converting the incident photon into a photoelectron. The electronics are responsible for providing the...")
- 07:42, 7 February 2022 In-situ magnetic imaging and Hall detection (hist | edit) [0 bytes] MayInn (talk | contribs) (Created page with " ==Team members== * Sim May Inn ==Idea== ==Setup== ==Measurements==")
