摘要:
A probe mechanism and a sample pick up mechanism of the invention are provided at an observing apparatus or an analyzing apparatus and characterized in including a tip member comprising a needle-like member brought into contact with a sample, including a driving electrostatic actuator and means for monitoring a change in an electrostatic capacitance between electrodes of the electrostatic actuator, and capable of sensing that the probe is brought into contact with a sample by the monitor
摘要:
A probe mechanism and a sample pick up mechanism of the invention are provided at an observing apparatus or an analyzing apparatus and characterized in including a tip member comprising a needle-like member brought into contact with a sample, including a driving electrostatic actuator and means for monitoring a change in an electrostatic capacitance between electrodes of the electrostatic actuator, and capable of sensing that the probe is brought into contact with a sample by the monitor.
摘要:
A fixed electrode and a movable electrode to be used to drive each arm are formed at a drive unit. As a voltage is applied between the fixed electrode and the movable electrode, the movable electrode is caused to move by coulomb force, thereby driving the arm 3 in a closing operation. By detecting a change occurring in the electrostatic capacity between the fixed electrode and the movable electrode at this time, a decision can be made as to whether or not the sample has been gripped.
摘要:
A fixed electrode and a movable electrode used to drive each arm are disposed at a drive unit. As a voltage is applied between the fixed electrode and the movable the electrode, a coulomb force causes the movable the electrode to move, thereby driving the arms along the closing direction. The dimensions of a sample can be measured based upon the electrostatic capacity achieved between the electrodes when the sample becomes gripped by the arms.
摘要:
A fixed electrode and a movable electrode to be used to drive each arm are formed at a drive unit. As a voltage is applied between the fixed electrode and the movable electrode, the movable electrode is caused to move by coulomb force, thereby driving the arm 3 in a closing operation. By detecting a change occurring in the electrostatic capacity between the fixed electrode and the movable electrode at this time, a decision can be made as to whether or not the sample has been gripped.
摘要:
A fixed electrode and a movable electrode used to drive each arm are disposed at a drive unit. As a voltage is applied between the fixed electrode and the movable the electrode, a coulomb force causes the movable the electrode to move, thereby driving the arms along the closing direction. The dimensions of a sample can be measured based upon the electrostatic capacity achieved between the electrodes when the sample becomes gripped by the arms.
摘要:
A structure having arbitrary rotational symmetry is produced by attaching a sample stage (turntable) to a precision rotational shaft that is continuously rotated as high precision, performing FIB deposition inside an FIB chamber while causing continuous rotation of the sample stage, or performing cut-way processing from a side surface or upper surface, like a general purpose lathe, using FIB etching.
摘要:
Objects to be achieved by the invention are to provide a nanobio device in which cultured cells are organized at a high-level in a state near in vivo, and to provide a method of using the nanobio device of imitative anatomy structure. The nanobio device of imitative anatomy structure of the invention is obtained by manufacturing a substrate with a bio-compatible substance and arranging a plurality of types of cells thereon in a desired array. A method of manufacturing a nanobio device in the invention includes a step of manufacturing a substrate for a nanobio device by a micromachine processing technique and a step of arranging a plurality of cultured cells on the substrate in a desired array with laser optical tweezers.
摘要:
objects to be achieved by the invention are to provide a nanobio device in which cultured cells are organized at a high-level in a state near in vivo, and to provide a method of using the nanobio device of imitative anatomy structure. The nanobio device of imitative anatomy structure of the invention is obtained by manufacturing a substrate with a bio-compatible substance and arranging a plurality of types of cells thereon in a desired array. A method of manufacturing a nanobio device in the invention includes a step of manufacturing a substrate for a nanobio device by a micromachine processing technique and a step of arranging a plurality of cultured cells on the substrate in a desired array with laser optical tweezers.
摘要:
A probe is moved to a direction where the tip of the probe and the tip of a shadow of the probe coincide at a target position on a display of the charged particle beam microscope while observing the distance between the tip of the probe and the target position during approaching the tip of the probe to the target position by use of a charged particle beam microscope with the probe tilted.