Google llc (20240346359). FREQUENCY PATTERN FOR REDUCING PARASITIC INTERACTIONS IN A QUBIT GRID simplified abstract

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FREQUENCY PATTERN FOR REDUCING PARASITIC INTERACTIONS IN A QUBIT GRID

Organization Name

google llc

Inventor(s)

John Martinis of Santa Barbara CA (US)

Austin Greig Fowler of Reseda CA (US)

Rami Barends of San Diego CA (US)

FREQUENCY PATTERN FOR REDUCING PARASITIC INTERACTIONS IN A QUBIT GRID - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240346359 titled 'FREQUENCY PATTERN FOR REDUCING PARASITIC INTERACTIONS IN A QUBIT GRID

Simplified Explanation

The patent application describes methods, systems, and apparatus for operating a system of qubits. It involves operating multiple qubits at different frequencies in a two-dimensional grid.

  • Operating a first qubit at a specific frequency.
  • Operating a second qubit at a different frequency.
  • The qubits are arranged diagonally in a grid.

Key Features and Innovation

  • Operating qubits at different frequencies in a grid.
  • Utilizing a two-dimensional grid structure for qubits.
  • Enabling diagonal arrangement of qubits for specific operations.

Potential Applications

This technology could be applied in quantum computing, cryptography, and data encryption systems.

Problems Solved

  • Enhancing the efficiency of qubit operations.
  • Facilitating complex quantum computations.
  • Improving the security of quantum communication.

Benefits

  • Increased computational power.
  • Enhanced data security.
  • Potential for breakthroughs in quantum technology.

Commercial Applications

  • Quantum computing research and development.
  • Quantum encryption services.
  • Data security solutions for sensitive information.

Questions about the Technology

What are the potential real-world applications of this technology?

This technology could revolutionize fields such as cryptography, data encryption, and quantum computing by offering faster and more secure processing capabilities.

How does the diagonal arrangement of qubits in a two-dimensional grid impact their performance?

The diagonal arrangement allows for specific operations to be carried out efficiently, enhancing the overall functionality of the quantum system.


Original Abstract Submitted

methods, systems, and apparatus for operating a system of qubits. in one aspect, a method includes operating a first qubit from a first plurality of qubits at a first qubit frequency from a first qubit frequency region, and operating a second qubit from the first plurality of qubits at a second qubit frequency from a second first qubit frequency region, the second qubit frequency and the second first qubit frequency region being different to the first qubit frequency and the first qubit frequency region, respectively, wherein the second qubit is diagonal to the first qubit in a two-dimensional grid of qubits.