TECHNOLOGIES FOR INTEGRATED GRADED INDEX LENSES IN PHOTONIC CIRCUITS

Organization Name

intel corporation

Inventor(s)

Umesh Prasad of Chandler AZ (US)

Suddhasattwa Nad of Chandler AZ (US)

Benjamin T. Duong of Phoenix AZ (US)

Yi Yang of Gilbert AZ (US)

TECHNOLOGIES FOR INTEGRATED GRADED INDEX LENSES IN PHOTONIC CIRCUITS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240219632 titled 'TECHNOLOGIES FOR INTEGRATED GRADED INDEX LENSES IN PHOTONIC CIRCUITS

Simplified Explanation: The patent application discloses technologies for integrated graded index (GRIN) lenses for photonic circuits. These lenses are used to focus and collimate light in photonic devices without the need for active alignment, reducing signal transmission losses.

• Glass substrate with cavity houses GRIN lens.
• GRIN lens can be on the surface of the glass substrate.
• GRIN lens focuses and collimates light to a free-space beam from a waveguide.
• Passive coupling to waveguides without active alignment.
• Minimizes signal transmission losses.

Key Features and Innovation:

• Integration of graded index (GRIN) lenses in photonic circuits.
• Passive coupling to waveguides without active alignment.
• Reduction of signal transmission losses.
• Use of GRIN lenses for focusing and collimating light.

Potential Applications:

• Telecommunications.
• Data transmission.
• Optical networking.
• Fiber optics.
• Laser technology.

Problems Solved:

• Active alignment issues in photonic devices.
• Signal transmission losses.
• Efficiency of light focusing and collimation.

Benefits:

• Improved signal transmission.
• Enhanced efficiency in photonic devices.
• Simplified integration of components.
• Reduced need for active alignment.

Commercial Applications: Potential commercial applications include:

• Telecommunication equipment manufacturing.
• Fiber optic network development.
• Laser technology companies.
• Optical component manufacturers.

Prior Art: Readers can explore prior art related to integrated GRIN lenses in photonic circuits by researching patents in the field of photonics, optical devices, and telecommunications.

Frequently Updated Research: Stay updated on the latest advancements in integrated GRIN lenses for photonic circuits by following research publications in photonics, optics, and telecommunications journals.

Questions about Integrated GRIN Lenses: 1. What are the key advantages of using GRIN lenses in photonic circuits? 2. How do GRIN lenses improve signal transmission in photonic devices?

Original Abstract Submitted

technologies for integrated graded index (grin) lenses for photonic circuits is disclosed. in one illustrative embodiment, a glass substrate has a cavity in which a grin lens is disposed. in other embodiments, the grin lens may be on a surface of the glass substrate. the grin lens focuses and collimates light to a free-space beam from a waveguide defined in the glass substrate. another component such as a photonic integrated circuit (pic) die may also have a grin lens and focus the free-space beam into a waveguide in the pic die. the use of grin lenses allows for passive coupling to waveguides without further active alignment that minimizes signal transmission losses.