Aerostatic bearing

What is claimed is: 1. A manufacturing method of aerostatic bearing comprising: providing a base having a foundation layer and a plurality of protruding bodies protruding from the foundation layer, the protruding bodies being made of a porous material, wherein at least two of the protruding bodies are spaced apart from each other; covering a sealing layer on the base, the sealing layer covers the protruding bodies and fills between two spaced apart protruding bodies, wherein a plurality of micro pores of a lateral periphery and a top surface of each of the protruding bodies are sealed by the sealing layer and become airtight; and removing a top portion of the sealing layer for revealing at least one of the protruding body. 2. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein each of the protruding bodies comprises an outer lateral periphery facing an edge of the base is sealed by the sealing layer. 3. The manufacturing method of aerostatic bearing in accordance with claim 2 , wherein each of the protruding bodies comprises an inner lateral periphery facing a center of the base is sealed by the sealing layer. 4. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein at least two of the protruding bodies have different heights. 5. The manufacturing method of aerostatic bearing in accordance with claim 4 , wherein all of the protruding bodies have different heights. 6. The manufacturing method of aerostatic bearing in accordance with claim 4 , wherein after removing the top portion of the sealing layer and the tallest protruding body is revealed, a ventilation intensity of the aerostatic bearing is measured, when the ventilation intensity is lower than a predetermined value, repeat removing the sealing layer until the other protruding body is exposed out of the sealing layer. 7. The manufacturing method of aerostatic bearing in accordance with claim 5 , wherein after removing the top portion of the sealing layer and the tallest protruding body is revealed, a ventilation intensity of the aerostatic bearing is measured, when the ventilation intensity is lower than a predetermined value, repeat removing the sealing layer until the other protruding body is exposed out of the sealing layer. 8. The manufacturing method of aerostatic bearing in accordance with claim 5 , wherein the protruding bodies are arranged in an order from highest to lowest of the height thereof. 9. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein a top portion of each of the protruding bodies comprises a cross section substantially parallel to an top surface of the foundation layer, a bottom portion of each of the protruding bodies comprises a cross section substantially parallel to the top surface of the foundation layer, wherein the cross section of the top portion is smaller than the cross section of the bottom portion in each protruding body. 10. The manufacturing method of aerostatic bearing in accordance with claim 9 , wherein each of the protruding bodies has a tapered shape. 11. The manufacturing method of aerostatic bearing in accordance with claim 9 , wherein after removing the top portion of the sealing layer, a ventilation intensity of the aerostatic bearing is measured, when the ventilation intensity is lower than a predetermined value, repeat removing the sealing layer until the ventilation intensity is not lower than the predetermined value. 12. The manufacturing method of aerostatic bearing in accordance with claim 10 , wherein after removing the top portion of the sealing layer, a ventilation intensity of the aerostatic bearing is measured, when the ventilation intensity is lower than a predetermined value, repeat removing the sealing layer until the ventilation intensity is not lower than the predetermined value. 13. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein the foundation layer is made of the porous material or a different porous material. 14. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein the foundation layer is made of a substantially non-ventilative material, and comprises a plurality of through holes, each of the protruding bodies covers a corresponding one of the through holes. 15. The manufacturing method of aerostatic bearing in accordance with claim 14 , wherein a plurality of accommodating slots are recessed into an top surface of the foundation layer, the through holes directly communicate with the accommodating slots, and the protruding bodies are disposed within the accommodating slots. 16. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein the sealing layer is a sealing gel, and a curing step performed after the sealing layer covered the base to cure the sealing gel. 17. The manufacturing method of aerostatic bearing in accordance with claim 1 , wherein the sealing layer is a metal membrane, and the metal membrane is deposited on the base by vacuum sputtering, vacuum vaporization or ion implantation.