Аннотация к книге "Air Gap Structures for Advanced Metallization Schemes. Development and Electrical Characterization"
The RC-delay and crosstalk noise of the interconnect system are major problems in high-performance semiconductor chips. The key is reducing the coupling capacitance or the k-value of the insulator between the metal lines by substituting silicon dioxide by low-k materials or by integrating cavities, called air gaps. Here, air gaps fabricated by the selective Ozone-TEOS deposition are considered to reduce the line-to-line capacitance. Different integration schemes were fabricated; air gaps...
The RC-delay and crosstalk noise of the interconnect system are major problems in high-performance semiconductor chips. The key is reducing the coupling capacitance or the k-value of the insulator between the metal lines by substituting silicon dioxide by low-k materials or by integrating cavities, called air gaps. Here, air gaps fabricated by the selective Ozone-TEOS deposition are considered to reduce the line-to-line capacitance. Different integration schemes were fabricated; air gaps requiring an additional lithography in Cu damascene metallization, self-aligned air gaps in Cu and in tungsten metallization, utilizing RIE (reactive ion etch) processing, and air gaps fabricated using non-conformal deposition processes for the insulator in a 90nm Al RIE metallization scheme. Structures were fabricated with and without air gaps to compare the properties and to examine different aspects such as k-value, simulations, capacitance, electrical breakdown, leakage current, electromigration, and self-heating by high current application. The results show very promising electrical properties of air gaps, exhibiting an attractive alternative to low-k materials.
Данное издание не является оригинальным. Книга печатается по технологии принт-он-деманд после получения заказа.
Оставить комментарий