In the Czochralski process a seed crystal is required to create a larger crystal, or ingot. This seed crystal is dipped into the pure molten silicon and slowly extracted. The molten silicon grows on the seed crystal in a crystalline fashion. As the seed is extracted the silicon solidifies and eventually a large, cylindrical boule is produced.[3]
A semiconductor crystal boule is normally cut into circular wafers using an inside hole diamond saw or diamond wire saw, and each wafer is lapped and polished to provide substrates suitable for the fabrication of semiconductor devices on its surface.[4]
The process is also used to create sapphires, which are used for substrates in the production of blue and white LEDs, optical windows in special applications and as the protective covers for watches.[5]
Referencesedit
^Kimoto, Tsunenobu; Cooper, James A. (24 November 2014). Fundamentals of Silicon Carbide Technology: Growth, Characterization. John Wiley & Sons. ISBN9781118313527. Retrieved March 1, 2017.
^Dhanaraj, Govindhan; Byrappa, Kullaiah; Prasad, Vishwanath; Dudley, Michael (2010). Springer Handbook of Crystal Growth. Springer. ISBN9783540747611. Retrieved February 25, 2017.
^Rea, Samuel N. (1978). "Continuous Czochralski Process Development". Retrieved March 1, 2017.
^BOSE (2013). IC Fabrication Technology. McGraw Hill Education (India) Pvt Ltd. p. 53. ISBN978-1-259-02958-5.
^J.-P. Colinge (29 February 2004). Silicon-on-Insulator Technology: Materials to VLSI: Materials to Vlsi. Springer Science & Business Media. p. 12. ISBN978-1-4020-7773-9.
January 01, 1970
boule, crystal, boule, single, crystal, ingot, produced, synthetic, means, crystallizationfundamentalscrystal, crystal, structure, nucleationconceptscrystallization, crystal, growth, recrystallization, seed, crystal, protocrystalline, single, crystalmethods, t. A boule is a single crystal ingot produced by synthetic means 1 CrystallizationFundamentalsCrystal Crystal structure NucleationConceptsCrystallization Crystal growth Recrystallization Seed crystal Protocrystalline Single crystalMethods and technologyBoules Bridgman Stockbarger method Van Arkel de Boer process Czochralski method Epitaxy Flux method Fractional crystallization Fractional freezing Hydrothermal synthesis Kyropoulos method Laser heated pedestal growth Micro pulling down Shaping processes in crystal growth Skull crucible Verneuil method Zone meltingvte Monocrystalline silicon boule A boule of silicon is the starting material for most of the integrated circuits used today In the semiconductor industry synthetic boules can be made by a number of methods such as the Bridgman technique 2 and the Czochralski process which result in a cylindrical rod of material In the Czochralski process a seed crystal is required to create a larger crystal or ingot This seed crystal is dipped into the pure molten silicon and slowly extracted The molten silicon grows on the seed crystal in a crystalline fashion As the seed is extracted the silicon solidifies and eventually a large cylindrical boule is produced 3 A semiconductor crystal boule is normally cut into circular wafers using an inside hole diamond saw or diamond wire saw and each wafer is lapped and polished to provide substrates suitable for the fabrication of semiconductor devices on its surface 4 The process is also used to create sapphires which are used for substrates in the production of blue and white LEDs optical windows in special applications and as the protective covers for watches 5 References edit Kimoto Tsunenobu Cooper James A 24 November 2014 Fundamentals of Silicon Carbide Technology Growth Characterization John Wiley amp Sons ISBN 9781118313527 Retrieved March 1 2017 Dhanaraj Govindhan Byrappa Kullaiah Prasad Vishwanath Dudley Michael 2010 Springer Handbook of Crystal Growth Springer ISBN 9783540747611 Retrieved February 25 2017 Rea Samuel N 1978 Continuous Czochralski Process Development Retrieved March 1 2017 BOSE 2013 IC Fabrication Technology McGraw Hill Education India Pvt Ltd p 53 ISBN 978 1 259 02958 5 J P Colinge 29 February 2004 Silicon on Insulator Technology Materials to VLSI Materials to Vlsi Springer Science amp Business Media p 12 ISBN 978 1 4020 7773 9 Retrieved from https en wikipedia org w index php title Boule crystal amp oldid 1181636254, wikipedia, wiki, book, books, library,
