Three-dimensional memory devices and methods for forming the same

What is claimed is: 1. A three-dimensional (3D) memory device, comprising a staircase, a plurality of contacts, a plurality of groups of support structures, and a fourth support structure between adjacent groups of support structures through the staircase, wherein: the plurality of groups of support structures are arranged in a first direction, each of the groups of support structures comprises three support structures, projections of the three support structures forming a triangular shape in a plane parallel to the first direction, and the plurality of contacts each is surrounded by a respective group, a projection of one of the contacts overlapping with the triangular shape of the respective group. 2. The 3D memory device of claim 1 , wherein a first support structure of each of the groups is aligned in the first direction. 3. The 3D memory device of claim 2 , wherein a second support structure and a third support structure of each of the groups are aligned in the first direction. 4. The 3D memory device of claim 1 , wherein a distance between two farthest support structures in each of the groups is in a range of about 350 to about 500 nm. 5. The 3D memory device of claim 4 , wherein a minimum distance between the two farthest support structures in each of the groups is in a range of about 300 nm to about 400 nm. 6. The 3D memory device of claim 1 , wherein the plurality of contacts are aligned in the first direction and away from each of the support structures in the respective group. 7. The 3D memory device of claim 6 , wherein a distance between each of the contacts to a support structure in the group is in a range of about 150 nm to about 300 nm. 8. The 3D memory device of claim 1 , wherein the triangular shape comprises an isosceles shape. 9. The 3D memory device of claim 1 , wherein, in a second direction perpendicular to the first direction, a distance between the fourth support structure and one of the three support structures in one of the adjacent groups is greater than or equal to half of a critical dimension of the fourth support structure and is less than or equal to the critical dimension of the fourth support structure. 10. The 3D memory device of claim 9 , wherein, in the first direction, another distance between the fourth support structure and one of the three support structures in one of the adjacent groups is greater than or equal to 1.5 times the critical dimension of the fourth support structure and is less than or equal to 2 times the critical dimension of the fourth support structure. 11. The 3D memory device of claim 1 , wherein the first direction is a direction in which a gate-line slit extends. 12. The 3D memory device of claim 11 , wherein the plurality of groups of support structures are arranged in a pair of rows in the first direction between two adjacent gate-line slits. 13. The 3D memory device of claim 1 , wherein the plurality of groups of support structures are arranged in a first finger and a second finger adjacent to the first finger, and each of the three support structures in a respective group in the first finger is aligned with a corresponding support structure in another group in the second finger in a second direction perpendicular to the first direction. 14. A three-dimensional (3D) memory device, comprising: a plurality of contacts aligned in a row in a first direction on a staircase; a plurality of groups of support structures aligned in a plurality of rows in the first direction; and a fourth support structure between adjacent groups of support structures, wherein: the row of the contacts and the plurality of rows of the support structures are apart from one another in a second direction perpendicular to the first direction; each of the contacts is surrounded by a group of support structures; one of the groups of support structures comprises three support structures; and one of the contacts and any one of the three support structures of a respective group are on a same side of other two of the three support structures of the respective group along a direction, the direction being perpendicular to a line which the other two of the three support structures are located. 15. The 3D memory device of claim 14 , wherein a first support structure in each group of support structures is located in one of two adjacent rows of support structures; and a second support structure and a third support structure in each group of support structures are located in another one of the two adjacent rows of support structures. 16. The 3D memory device of claim 14 , wherein a minimum distance between each of the contacts to a support structure in the group is in a range of about 150 nm to about 300 nm. 17. The 3D memory device of claim 14 , wherein a distance between two farthest support structures in each of the groups is in a range of about 350 to about 500 nm. 18. The 3D memory device of claim 14 , wherein, in a second direction perpendicular to the first direction, a distance between the fourth support structure and each of the three support structures in the respective group is greater than or equal to half of a critical dimension of the fourth support structure and is less than or equal to the critical dimension of the fourth support structure. 19. A method for forming a three-dimensional (3D) memory device, comprising: forming a stack structure of a plurality of first layers and a plurality of second layers; forming a staircase in a staircase region of the stack structure; forming a plurality of contacts on the staircase; forming a plurality of groups of support structures in the staircase; and forming a fourth support structure between adjacent groups of support structures, wherein the plurality of groups of support structures each comprises three support structures, projections of the three support structures forming a triangular shape in a plane parallel to a first direction, and the plurality of contacts each is surrounded by a respective group, a projection of one of the contacts overlapping with the triangular shape of the respective group. 20. The method of claim 19 , wherein the plurality of contacts are aligned in a row in the first direction; a plurality of support structures are arranged in a plurality of rows in the first direction; and the row of the contacts and the plurality of rows of the support structures are apart from one another in a second direction perpendicular to the first direction.