Could water molecule act as qubit?
Sometimes I have thought that is it possible that the "Y"-shaped nanotechnical molecule can be replaced by using simply the water molecule. The thing is that water molecule, what is hovering in the magnet field would be loaded with electricity, and then if the molecule comes to the detector or the gate the one hydrogen atom ahead would the value of qubit be 0. And if the water molecule comes to the gate by touching it with two hydrogen atoms the value would be 1 and if the oxygen atom would come to the gate at first, the value of qubit would be 2.
This is an interesting idea because the creation of qubit is extremely difficult. If we would think about the ionization of water molecule and the layer, what touches the gate, the idea is that if the molecule has the polaric quality, it would also transfer the data. And the polarity and the level of electricity what would be detected in the gate would mean the value of qubit.
This kind of things are interesting to think, and that thing is extremely important to understand because if we could create a simple and stable molecule, what will store high level of voltage, we might be closer to create the quantum computers than ever before. Big atom in the middle of molecule operates great insulator, and that's why Xenon would be suitable in that kind of purposes.
When we are thinking about the molecular qubits, things like combinations or molecules, where one member would be noble gas Xenon would that molecule or atoms what are around the center atom, what would be Xenon voltage increase higher level than using the smaller atom. In this case, the noble gas would act as the insulator and denies that the atoms, what are around xenon erupt their capacity. The high-level voltage would make easier to detect those molecules, but the problem is that noble gases are hard to make molecules.
This kind of research makes possible to create qubits and quantum computers someday. And the thing is that the role of the pathfinder in this kind of cases is not easy. The molecular qubit is the very clumsy answer to the problem of the qubits. There is introduced an idea to use Helium atoms as the qubits, but bein successful means that the electron core of that atom must somehow be modified. The location of the electrons must be an absolute right when this qubit would travel across the gate. If just one electron touches the gate the value would be 0. If two electrons are touching the gate the value would be 1, and if the nucleus touches the gate, the value would be 2.
The problem with transferring the data in as qubits is to detect the empty. If we think the sensor, what operates as qubit detector would look like a gate, and the qubit as an atom, ion or molecule for working that thing needs that the molecule touches the gate in the right way. And giving absolute right voltage, must the electrons be in the right position that the value would be, what it wanted to be. And detecting the 0 would be difficult. One answer would be that the atom would travel across the laser ray, what would detect that case, and that would be number zero.
In this case, if the atom or ion touches the gate, the value would be 1 or 2. And if the touch would not be noticed before cutting the laser ray, the thing would send the value 0. Another version of virtual qubit would be three laser rays, and the ion would travel across them. If one laser ray detects the atom the value would be 0 if two laser rays have been crossed the value would be 1 and if all three rays have been cut the value will be 2. The thing works that behind each laser ray is the magnet, what turns the ion away its track in a certain position.
The molecular version of qubit would be too large for being effective in high-speed computing. There has been given an idea that the prototypes of quantum computers would be full of the water tubes, and the nanomachines would travel inside them for giving the demonstration, how the qubit should work in the full-scale solutions.
Sometimes I have thought that is it possible that the "Y"-shaped nanotechnical molecule can be replaced by using simply the water molecule. The thing is that water molecule, what is hovering in the magnet field would be loaded with electricity, and then if the molecule comes to the detector or the gate the one hydrogen atom ahead would the value of qubit be 0. And if the water molecule comes to the gate by touching it with two hydrogen atoms the value would be 1 and if the oxygen atom would come to the gate at first, the value of qubit would be 2.
This is an interesting idea because the creation of qubit is extremely difficult. If we would think about the ionization of water molecule and the layer, what touches the gate, the idea is that if the molecule has the polaric quality, it would also transfer the data. And the polarity and the level of electricity what would be detected in the gate would mean the value of qubit.
This kind of things are interesting to think, and that thing is extremely important to understand because if we could create a simple and stable molecule, what will store high level of voltage, we might be closer to create the quantum computers than ever before. Big atom in the middle of molecule operates great insulator, and that's why Xenon would be suitable in that kind of purposes.
When we are thinking about the molecular qubits, things like combinations or molecules, where one member would be noble gas Xenon would that molecule or atoms what are around the center atom, what would be Xenon voltage increase higher level than using the smaller atom. In this case, the noble gas would act as the insulator and denies that the atoms, what are around xenon erupt their capacity. The high-level voltage would make easier to detect those molecules, but the problem is that noble gases are hard to make molecules.
This kind of research makes possible to create qubits and quantum computers someday. And the thing is that the role of the pathfinder in this kind of cases is not easy. The molecular qubit is the very clumsy answer to the problem of the qubits. There is introduced an idea to use Helium atoms as the qubits, but bein successful means that the electron core of that atom must somehow be modified. The location of the electrons must be an absolute right when this qubit would travel across the gate. If just one electron touches the gate the value would be 0. If two electrons are touching the gate the value would be 1, and if the nucleus touches the gate, the value would be 2.
The problem with transferring the data in as qubits is to detect the empty. If we think the sensor, what operates as qubit detector would look like a gate, and the qubit as an atom, ion or molecule for working that thing needs that the molecule touches the gate in the right way. And giving absolute right voltage, must the electrons be in the right position that the value would be, what it wanted to be. And detecting the 0 would be difficult. One answer would be that the atom would travel across the laser ray, what would detect that case, and that would be number zero.
In this case, if the atom or ion touches the gate, the value would be 1 or 2. And if the touch would not be noticed before cutting the laser ray, the thing would send the value 0. Another version of virtual qubit would be three laser rays, and the ion would travel across them. If one laser ray detects the atom the value would be 0 if two laser rays have been crossed the value would be 1 and if all three rays have been cut the value will be 2. The thing works that behind each laser ray is the magnet, what turns the ion away its track in a certain position.
The molecular version of qubit would be too large for being effective in high-speed computing. There has been given an idea that the prototypes of quantum computers would be full of the water tubes, and the nanomachines would travel inside them for giving the demonstration, how the qubit should work in the full-scale solutions.
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