Patent ID: 11877519
Assignee: JIANGSU LEUVEN INSTRUMENTS CO. LTD
Field: Surface technology, coating (Chemistry)
Classification: CPC H  C  Y | IPC H

Claim 0:
1. A semiconductor device manufacturing method, using an etching device comprising a sample loading chamber, a vacuum transition chamber, a reactive ion plasma etching chamber, an ion beam etching (IBE) chamber, a film coating chamber, and a vacuum transport chamber, wherein the vacuum transition chamber is connected to the sample loading chamber and the vacuum transport chamber separately in a linkable manner; the reactive ion plasma etching chamber, the IBE chamber, and the film coating chamber are separately connected to the vacuum transport chamber in a linkable manner; wherein the method comprises the following steps:
a sample preparation step: forming a structure to be etched and containing a bottom electrode metal layer, a magnetic tunnel junction (MTJ), a cap layer, and a mask layer on a semiconductor substrate, wherein the MTJ comprises a fixed layer, an isolation layer, and a free layer;
a sample loading step: loading a sample to the sample loading chamber, and the sample entering the vacuum transport chamber through the vacuum transition chamber;
a first reactive ion etching step: the sample entering the reactive ion plasma etching chamber, etching the sample by means of reactive ion etching, and stopping etching at the isolation layer; and then the sample returning to the vacuum transport chamber;
an IBE step: transferring the sample from the vacuum transport chamber to the IBE chamber, etching the sample into the fixed layer by means of IBE, and stopping etching near the bottom electrode metal layer;
a second reactive ion etching step: the sample entering the reactive ion plasma etching chamber, continuously etching the sample by means of reactive ion etching, and stopping etching at the bottom electrode metal layer; and then the sample returning to the vacuum transport chamber;
a first ion beam cleaning step: the sample entering the IBE chamber, and removing metal residues and treating a sample surface, so that metal contamination and a sidewall damage layer formed in the foregoing etching step are completely removed; and then the sample returning to the vacuum transport chamber;
a protection step: the sample entering the film coating chamber, forming a dielectric thin film on the upper surface of and around the sample which has been subjected to etching, and then the sample returning to the vacuum transport chamber; and
a sample take-out step: the sample returning from the vacuum transport chamber to the sample loading chamber through the vacuum transition chamber,
wherein the method further comprises the following steps after the step of etching the sample into the fixed layer in the IBE step and before the step of stopping etching at the bottom electrode metal layer in the second reactive ion etching step:
a second ion beam cleaning step: the sample continuously staying in the IBE chamber, and removing the metal residues and treating the sample surface by using ion beams, so that the metal contamination and the sidewall damage layer formed in the foregoing etching step are completely removed; and then the sample returning to the vacuum transport chamber;
a dielectric coating step: the sample entering the film coating chamber, and forming a dielectric thin film on the upper surface of and around the sample; and then the sample returning to the vacuum transport chamber; and
a dielectric thin film opening step: the sample entering the reactive ion plasma etching chamber; etching the sample by using reactive ion plasma, opening the dielectric thin film on the top and bottom portions of the device but leaving part of the dielectric thin film on the device sidewall; and then stopping etching.