Magnetic recording medium

What is claimed is: 1 . A magnetic recording medium comprising: a nonmagnetic support body; and a magnetic layer containing magnetic particles, wherein 0.0013 μT·m<Mr·t<0.0032 μT·m is satisfied where Mr is a residual magnetic flux density in a thickness direction of the magnetic layer and t is an average thickness of the magnetic layer, a squareness ratio in the thickness direction of the magnetic layer is 0.65 or more, if a straight line W having a length of 500 nm and a width of 15 nm is displayed parallel to a width direction of the magnetic layer and a straight line L having a length of 500 nm and a width of 15 nm is displayed parallel to a longitudinal direction of the magnetic layer, on an image obtained by observing a surface of the magnetic layer using a scanning electron microscope at 10 k-fold magnification, the straight line W does not intersect a particle having a particle diameter of 50 nm or more and a gap having a maximum width of 50 nm or more on the image, and on the image, the number of magnetic particles that intersect the straight line W is N1, and the straight line L does not intersect a particle having a particle diameter of 50 nm or more and a gap having a maximum width of 50 nm or more on the image, and on the image, the number of magnetic particles that intersect the straight line L is N2, then, a relationship of N1/0.5>60 and N2/0.5>60 is established where N1/0.5 is the number of magnetic particles per micrometer obtained by dividing N1 by 0.5 μm and N2/0.5 is the number of magnetic particles per micrometer obtained by dividing N2 by 0.5 μm. 2 . The magnetic recording medium according to claim 1 , wherein if a length of magnetization in the width direction of the magnetic layer is set to 1 μm or less, the length being a length of magnetization of a signal recorded in the magnetic layer, reproduction is performed by a TMR head. 3 . The magnetic recording medium according to claim 1 , wherein the magnetic particles are made of ε-iron oxide. 4 . The magnetic recording medium according to claim 3 , wherein an average particle diameter of the magnetic particles made of the ε-iron oxide is 15 nm or less. 5 . The magnetic recording medium according to claim 1 , wherein a magnetic coercive force in the thickness direction of the magnetic layer is 3000 oersteds [Oe] or more. 6 . The magnetic recording medium according to claim 1 , wherein when spacing on a surface of the magnetic layer is measured using a TSA (tape spacing analyzer) after the surface of the magnetic layer is cleaned using n-hexane, a value of the spacing is 5 nm or more and 12 nm or less. 7 . The magnetic recording medium according to claim 1 , wherein a thickness of the magnetic layer is 30 nm or more and 200 nm or less.