Certificate in Plasmonic Nanolasers: Performance Optimization
-- ViewingNowThe Certificate in Plasmonic Nanolasers: Performance Optimization is a comprehensive course designed to equip learners with critical skills in the rapidly evolving field of nanophotonics. This course is crucial for professionals seeking to enhance their understanding of plasmonic nanolasers and their optimization for various applications.
5,283+
Students enrolled
GBP £ 140
GBP £ 202
Save 44% with our special offer
ě´ ęłźě ě ëí´
100% ě¨ëźě¸
ě´ëěë íěľ
ęłľě ę°ëĽí ě¸ěŚě
LinkedIn íëĄíě ěśę°
ěëŁęšě§ 2ę°ě
죟 2-3ěę°
ě¸ě ë ěě
ë기 ę¸°ę° ěě
ęłźě ě¸ëśěŹí
⢠Fundamentals of Plasmonic Nanolasers: An overview of plasmonic nanolasers, their properties, and applications. This unit will cover the basics of nanolasers, including their design, fabrication, and operation.
⢠Plasmonic Materials and Structures: This unit will delve into the different types of plasmonic materials and structures used in nanolasers, including metals, dielectrics, and semiconductors.
⢠Nanolaser Design and Fabrication: In this unit, students will learn about the various design and fabrication techniques used to create plasmonic nanolasers. This will include both top-down and bottom-up approaches.
⢠Performance Characterization of Nanolasers: Students will learn how to measure and analyze the performance of plasmonic nanolasers, including their output power, spectral properties, and stability.
⢠Optimization Techniques for Nanolasers: This unit will cover various optimization techniques for improving the performance of plasmonic nanolasers, including thermal management, mode control, and gain enhancement.
⢠Plasmonic Nanolasers for Sensing and Imaging: This unit will explore the use of plasmonic nanolasers in sensing and imaging applications, including biosensing, chemical sensing, and optical coherence tomography.
⢠Integration of Nanolasers with Other Nanophotonic Devices: Students will learn about the challenges and opportunities of integrating plasmonic nanolasers with other nanophotonic devices, such as waveguides, modulators, and detectors.
⢠Applications of Plasmonic Nanolasers: This unit will cover the various applications of plasmonic nanolasers, including telecommunications, computing, and biomedical devices.
⢠Future Directions in Plasmonic Nanolasers: In this final unit, students will learn about the latest research and development in plasmonic nanolasers, including new materials, structures, and applications.
ę˛˝ë Ľ 경ëĄ
ě í ěęą´
- 죟ě ě ëí 기본 ě´í´
- ěě´ ě¸ě´ ëĽěë
- ěť´í¨í° ë° ě¸í°ëˇ ě ꡟ
- 기본 ěť´í¨í° 기ě
- ęłźě ěëŁě ëí íě
ěŹě ęłľě ěę˛Šě´ íěíě§ ěěľëë¤. ě ꡟěąě ěí´ ě¤ęłë ęłźě .
ęłźě ěí
ě´ ęłźě ě ę˛˝ë Ľ ę°ë°ě ěí ě¤ěŠě ě¸ ě§ěęłź 기ě ě ě ęłľíŠëë¤. ꡸ę˛ě:
- ě¸ě ë°ě 기ę´ě ěí´ ě¸ěŚëě§ ěě
- ęśíě´ ěë 기ę´ě ěí´ ęˇě ëě§ ěě
- ęłľě ě겊ě ëł´ěě
ęłźě ě ěąęłľě ěźëĄ ěëŁí늴 ěëŁ ě¸ěŚě뼟 ë°ę˛ ëŠëë¤.
ě ěŹëë¤ě´ ę˛˝ë Ľě ěí´ ě°ëŚŹëĽź ě ííëę°
댏롰 ëĄëŠ ě¤...
ě죟 돝ë ě§ëŹ¸
ě˝ě¤ ěę°ëŁ
- 죟 3-4ěę°
- 쥰기 ě¸ěŚě ë°°ěĄ
- ę°ë°Ší ëąëĄ - ě¸ě ë ě§ ěě
- 죟 2-3ěę°
- ě 기 ě¸ěŚě ë°°ěĄ
- ę°ë°Ší ëąëĄ - ě¸ě ë ě§ ěě
- ě 체 ě˝ě¤ ě ꡟ
- ëě§í¸ ě¸ěŚě
- ě˝ě¤ ěëŁ
ęłźě ě ëł´ ë°ę¸°
íěŹëĄ ě§ëś
ě´ ęłźě ě ëšěŠě ě§ëśí기 ěí´ íěŹëĽź ěí ě˛ęľŹě뼟 ěě˛íě¸ě.
ě˛ęľŹěëĄ ę˛°ě ę˛˝ë Ľ ě¸ěŚě íë
