Overview
Skylark Lasers is a leading photonics company pioneering ultrastable, single-frequency Continuous Wave (CW) DPSS lasers. The company’s advantage lies in patent-pending technology that significantly reduces UV degradation within the laser cavity, extending the lifespan of critical components by thousands of hours. This brings superior performance for users.
Skylark lasers deliver the highest power available at 320nm and 349nm wavelengths, ensuring exceptional stability and unmatched reliability. This translates directly to increased throughput and reduced costs in chip manufacturing processes.
Developed specifically for inspecting next-generation compound semiconductors (SiC and GaN), vital for electric vehicles and data centers. Skylark lasers provide manufacturers with invaluable data which results in significant yield improvements and faster R&D cycles, accelerating time to market for new products.
Benefits:
• Industry-leading lifespan: thousands of hours longer operation compared to traditional lasers
• Unmatched stability: superior single-frequency performance for precise inspection
• Increased throughput: process more chips with exceptional reliability
• Reduced cost of ownership: fewer replacements lead to significant savings
With an established presence in China and the US, Skylark Lasers is actively seeking partnerships in Taiwan.
Seeking collaborations with companies focused on:
• Compound semiconductor inspection
• Lithography processes
• High-resolution spectroscopy
Skylark Lasers是頂尖的光子學公司,開創出超穩定的單頻連續波 (CW)半導體泵浦固體雷射(DPSS laser)技術。該公司的優勢在於其申請專利中的技術,可大幅減少雷射共振腔(laser cavity)內的紫外線降解(UV degradation),讓關鍵元件的使用壽命延長數千小時,為用戶提供卓越的性能。
Skylark Lasers在320奈米和349奈米波長下提供最高功率的雷射,以確保卓越的穩定性和無與倫比的可靠性。這可直接轉化為晶片製造過程中的生產率提升和成本下滑。
該公司的技術是專為檢測碳化矽(SiC)和氮化鎵(GaN)而開發;這些新一代化合物半導體對電動車和資料中心至關重要。Skylark Lasers為製造業者提供寶貴的資料,進而大幅提高產量,並縮短研發週期,加速新產品上市時間。
該公司技術的優點包括:
•領先業界的使用壽命:運作壽命較傳統雷射高出數千小時
•無與倫比的穩定性:卓越的單頻性能,可進行精確檢測
•提高生產率:憑藉卓越的可靠性,可處理更多晶片
•降低擁有成本:降低汰換可帶來顯著的節省
Skylark Lasers已在中國和美國建立業務,目前正積極在台灣尋求 合作夥伴。
徵求專注於下列領域的合作夥伴:
• 化合物半導體檢測 • 微影(lithography)製程
• 高解析頻譜(high-resolution spectroscopy)