QUANTUM COMPUTING DEVICE, USE, AND METHOD

Organization Name

Inventor(s)

Tilman Pfau of Sindelfingen/Darmsheim (DE)

[[:Category:Christian H�lzl of Stuttgart (DE)|Christian H�lzl of Stuttgart (DE)]][[Category:Christian H�lzl of Stuttgart (DE)]]

QUANTUM COMPUTING DEVICE, USE, AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240311672 titled 'QUANTUM COMPUTING DEVICE, USE, AND METHOD

- Simplified Explanation:**

The patent application describes a quantum computing device that utilizes atoms with different electronic states, including a rydberg electronic state, and an optical capture device to manipulate and capture these atoms for quantum computing purposes.

- Key Features and Innovation:**
Quantum computing device with atoms in different electronic states
Utilization of a rydberg electronic state for enhanced quantum computing capabilities
Optical capture device to emit electromagnetic radiation for capturing atoms
Atoms with equal ac polarizability for efficient capture

- Potential Applications:**

The technology can be used in quantum computing research, development of quantum algorithms, and encryption methods.

- Problems Solved:**

The technology addresses the need for efficient manipulation and capture of atoms in quantum computing devices.

- Benefits:**
Enhanced quantum computing capabilities
Improved efficiency in capturing atoms for quantum computing purposes

- Commercial Applications:**

Potential commercial applications include quantum computing research labs, technology companies focusing on quantum computing, and government agencies interested in quantum encryption.

- Prior Art:**

Readers can start searching for prior art related to this technology in scientific journals, patent databases, and research papers on quantum computing and atomic manipulation.

- Frequently Updated Research:**

Stay updated on the latest advancements in quantum computing, atomic manipulation, and quantum algorithms to enhance the understanding and application of this technology.

- Questions about Quantum Computing:**

1. How does the rydberg electronic state enhance quantum computing capabilities?

  - The rydberg electronic state allows for longer coherence times and increased qubit control, leading to more efficient quantum computations.

2. What are the potential challenges in scaling up quantum computing devices using atoms with different electronic states?

  - Scaling up quantum computing devices may face challenges related to maintaining coherence, controlling interactions between atoms, and optimizing quantum algorithms for larger systems.

Original Abstract Submitted

the invention relates to a quantum computing device comprising at least one atom, wherein the at least one atom has a first electronic state, a second electronic state, and a third electronic state, wherein the third electronic state is a rydberg electronic state, and an optical capture device configured to emit electromagnetic radiation to capture one or more of the at least one atom, wherein the optical capture device is configured to emit the electromagnetic radiation at a capture wavelength, wherein the first electronic state, the second electronic state, and the rydberg electronic state have a substantially equal ac polarizability for the capture wavelength. the invention further relates to a use of a quantum computing device and a method for quantum computing.