SYSTEMS AND METHODS FOR BEAM SHAPING FOR LARGE ASPECT RATIO WITH A SINGLE CYLINDRICAL LENS

Organization Name

IonQ, Inc.

Inventor(s)

Joachim Welte of Carrboro NC (US)

SYSTEMS AND METHODS FOR BEAM SHAPING FOR LARGE ASPECT RATIO WITH A SINGLE CYLINDRICAL LENS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240282475 titled 'SYSTEMS AND METHODS FOR BEAM SHAPING FOR LARGE ASPECT RATIO WITH A SINGLE CYLINDRICAL LENS

The present disclosure pertains to systems and methods for quantum information processing (QIP) systems, specifically focusing on beam shaping for large aspect ratios using a single cylindrical lens.

• A QIP system comprises a laser source, a cylindrical lens, and an ion trap.
• The laser source generates a Gaussian laser beam.
• The cylindrical lens aligns with a portion of the laser beam and transforms it into an anamorphic shape.
• The ion trap contains multiple trapped ions that can be targeted by the beam.
• The cylindrical lens positions the beam in relation to the ion trap so that the fast axis of the beam aligns with the ions' axis, while the slow axis is perpendicular to the ions.

Potential Applications: - Quantum computing - Quantum communication - Quantum cryptography

Problems Solved: - Efficient beam shaping for large aspect ratios - Precise alignment of laser beams in ion traps

Benefits: - Improved quantum information processing efficiency - Enhanced control over ion trap interactions

Commercial Applications: Title: Advanced Beam Shaping Technology for Quantum Information Processing This technology can be utilized in industries such as: - Information technology - Telecommunications - Defense and security

Questions about Quantum Information Processing: 1. How does beam shaping impact the efficiency of quantum information processing systems?

  - Beam shaping ensures precise targeting of ions in ion traps, enhancing system performance.

2. What are the potential challenges in implementing beam shaping technology in quantum information processing?

  - Challenges may include maintaining alignment accuracy and optimizing beam parameters for different applications.

Original Abstract Submitted

aspects of the present disclosure relate generally to systems and methods for use in the implementation and/or operation of quantum information processing (qip) systems, and more particularly, for beam shaping for large aspect ratios with a single cylindrical lens. in some aspects, a qip system includes a laser source, a cylindrical lens, and an ion trap. the laser source produces a gaussian laser beam. the cylindrical lens is aligned with at least a portion of the laser beam and shapes the laser beam into a beam having an anamorphic shape. the ion trap includes a plurality of trapped ions addressable by the beam. the cylindrical lens orients the beam relative to the ion trap such that a fast axis of the beam is aligned with an axis of the plurality of trapped ions, and a slow axis of the beam is traverse to the plurality of trapped ions.