Quantum sensors Take the largest road barrier for quantum computers – unparalleled overlap, or Noise– It turns it into strength. Noise Quantum computers Because the quantum cases they use for the account are affected by the lowest disorders of the environment. But quantum sensors use these disorders to discover small changes in Magnetic and electrical Fields.
Amanda Stein, CEO of Quantum Catalyzer (Q-CAT), is working on meaningful markets for sensors on the basis Disadvantages of quantum in diamonds. IEEE SICTRUMI talked to her about the challenges to do so.
How can defects in diamond Can it be used as a sensor?
Amanda Stein: Nitrogen (NV) centers are specially implanted diamond defects, as the adjacent carbon atoms have been replaced in the crystal network nitrogen and the grave-lost carbon corn. NV defect allows careful sensing because NV shows an excellent quantitative behavior – excellent energy levels, rotation, and the ability to absorb individual photons and remove them – while protecting them by a strong diamond host. For example, the small change in the magnetic field can change the NV levels, which leads to a measurable change in the rate of photons emitted by NV.
How do you find industries that can benefit from quantum sensors?
Stein: We are looking for areas where diamond sensors can add value. The largest areas in rough environments, because Diamond is a very strong material. Even industries such as space, and Oil and gas.
Diamond sensors do not need a lot of calibration, and with some technological developments, calibration can be made of calibration. So it can be good for long -term resolution. You can discover Magnetic fieldsAnd temperature, pressure and perhaps even attractivenessWith one sensor. In a rugged environment, it is important to replace multiple sensors with only one group.
What is your first, Euqlid, contributes to The semiconductor industry?
Stein: We have built something called a diamond quantum microscope, which can create a picture of the microscopic magnetic fields on a wide width field. It is unique, especially when applied to a semiconductor world. The currents that flow into the wires produce magnetic fields, and we can follow these magnetic fields in an expanded way. We are able to see some new packaging techniques without using X -rayWhich can be harmful.
What are some other industries that can have quantum sensors?
Stein: We explore areas such as artworks and high -value objects. Each paint has some magnetic properties, and with our extreme sensitivity, we will likely see where the paint is degraded, or perhaps even where Van Gog started something else and change it along the way.
Another exciting area in the CV. One of the hypotheses that we have is that cancer cells carry a higher level of iron than healthy cells. We are likely to use our tools pathology.
What is the next to Quantum?
Stein: We are also looking for other materials, such as Silicone carbide and Graphine.
I think that with the progress of quantum and begins to provide more solutions, people will be more aware of what he can do already. It still requires a lot of money and technology development, but in the short term, in my opinion, from Quantum computing.
From your site articles
Related articles about the web
