Radio Pulsars 对比 AR Fourier Optics Lab 的使用情况和统计数据
Embark on a celestial journey with Radio Pulsars, an app that transforms your iPhone into a virtual radio telescope for experiencing the captivating world of pulsar astronomy. Pulsars, fascinating remnants of massive stars, are rapidly spinning neutron stars exhibiting incredibly precise periods. Acting as cosmic ‘lighthouses’, pulsars emanate beams of electromagnetic radiation due to ultra-high magnetic fields at their poles.
In Radio Pulsars, you’ll dive into authentic pulsar observations, understanding the complexities of these astronomical phenomena. Pulsars, with their distinct pulse profiles, are like fingerprints of the universe. The app showcases 85 pulsars, including 26 glitching ones, providing a diverse collection of cosmic wonders.
Explore iconic pulsars like PSR J1921+2153, the first detected in 1967, PSR J0534+2200 located in the Crab Nebula, and PSR J0835-4510, the brightest known pulsar. Witness the stability of PSR J0437-4715 and the uniqueness of PSR J0332+5434, the brightest pulsar in the northern sky. Marvel at the extraordinary double pulsar system, PSR J0737-3039, and the pulsar-neutron star duo, PSR J1915+1606.
Radio Pulsars offers a comprehensive exploration for these cosmic marvels, providing an engaging and educational experience for astronomy enthusiasts. Immerse yourself in the captivating world of pulsar observation and unravel the secrets of the universe!
Please note Radio Pulsars now only supports iPhone and does not support iPad.
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- 免费
- 教育
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In the middle of the 19th century, Ernst Abbe revolutionized optics with his diffraction theory of the microscope. He predicted the resolution limit and derived mathematical guidelines for high-performance devices which became known as the "Fourier Optics" method. This enabled Carl Zeiss to design instruments by prior calculations and started the industrialization of physical instrumentation. Understanding Fourier Optics is an important learning goal in every undergraduate optics course.
This App was build to teach the basics of Fourier Optics in combination with an according lab experiment. It is intended for undergraduate students in Physics, Photonics and Optical Sciences. We recommend the use of the Thorlabs EDU-FOP2 Fourier Optics Kit:
https://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=11829&pn=EDU-FOP2/M
The App was designed to augment the learning content onto an existing EDU-FOP2 setup ("Lab Companion Mode"), but also allows a stand-alone use of the students at home ("Preparation Mode") or in cases where a suitable setup is not available.
It will cover the following topics:
- Introduction to Fourier Optics
- Physical Background
- Mathematical Background
- Explanations on a typical lab setup with Köhler illumination (EDU-FOP2 from Thorlabs)
- Applications
- Historical Background
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- 免费
- 教育
商店排名
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Radio Pulsars VS. 
AR Fourier Optics Lab一月 17, 2025