IR thermometry probe cover

The invention claimed is: 1 . A probe cover, comprising: a distal end; a proximal end opposite the distal end; a wall forming an inner surface facing a central longitudinal axis of the probe cover; a cove formed by the inner surface, at least part of the cove extending radially away from the longitudinal axis; and a flange disposed at the proximal end, the flange including a first surface configured to receive a force from an ejector mechanism, and a proximally-facing outer face spaced from the first surface, wherein: a section of the wall is configured to flex in response to the force being applied to the first surface, and the proximally-facing outer face of the flange forms: a base of the probe cover at a proximal-most surface of the flange, and an edge surface, wherein from a radially outer-most surface of the flange, the edge surface extends: proximally away from the distal end of the probe cover, and radially inwardly. 2 . The probe cover of claim 1 , the section having a greater flexibility than a portion of the wall disposed adjacent and distal to the section. 3 . The probe cover of claim 1 , wherein the edge surface comprises a substantially linear surface disposed radially outward of the first surface, and at least part of the base is disposed radially inward of the first surface. 4 . The probe cover of claim 1 , wherein: the first surface comprises a first convex surface configured to receive the force, the first convex surface of the flange extending proximally in a direction toward the longitudinal axis, and the base is formed at least in part by a second convex surface. 5 . The probe cover of claim 4 , wherein the second convex surface comprises the proximal-most surface of the flange, the second convex surface being configured to mate with a corresponding opening of a medical instrument when the probe cover is releasably connected to the medical instrument. 6 . The probe cover of claim 1 , wherein the base extends substantially perpendicular to the longitudinal axis, and the first surface of the flange extends distally, from at least part of the base, in a direction toward the longitudinal axis. 7 . The probe cover of claim 6 , wherein the first surface extends distally, from the at least part of the base, to a distal peak, the distal peak extending substantially perpendicular to the longitudinal axis. 8 . The probe cover of claim 7 , wherein the flange comprises a second surface opposite and facing the first surface, the second surface extending proximally, from the distal peak, in a direction toward the longitudinal axis. 9 . The probe cover of claim 1 , wherein: the probe cover comprises a first probe cover, an outer surface of the first probe cover forms a shelf opposite the cove, and the shelf is configured to support a second probe cover thereon when the second probe cover is stacked on top of the first probe cover such that: the second probe cover is in contact with the shelf, and a longitudinal axis of the second probe cover is colinear with the longitudinal axis of the first probe cover. 10 . The probe cover of claim 1 , wherein the cove includes a rounded peak formed by the inner surface. 11 . The probe cover of claim 1 , wherein a proximal end of the first surface and a proximal end of the edge surface are disposed at an annular surface of the flange, the annular surface of the flange extending substantially perpendicular to the longitudinal axis. 12 . The probe cover of claim 11 , wherein the annular surface of the flange is disposed distal to the base of the probe cover. 13 . The probe cover of claim 11 , wherein the edge surface comprises a substantially linear surface disposed radially outward of the first surface, the edge surface extending distally and radially outwardly from the annular surface of the flange. 14 . The probe cover of claim 13 , wherein the first surface comprises a substantially linear surface extending distally and radially inwardly from the annular surface of the flange. 15 . A probe cover, comprising: a distal end; a proximal end opposite the distal end; a wall extending proximally from the distal end of the probe cover, the wall including: an inner surface facing a central longitudinal axis of the probe cover, the inner surface forming an arcuate portion of the probe cover; and a flange disposed at the proximal end of the probe cover, the flange forming a base of the probe cover and a proximally-facing edge surface, wherein: the arcuate portion is disposed distal to the flange, and is configured to couple with a corresponding member of a medical instrument to releasably connect the probe cover to the medical instrument, a section of the wall is configured to flex when a force is applied to the flange by an ejector mechanism of the medical instrument in a first direction that is toward the distal end and substantially parallel to the longitudinal axis, flexing of the section decouples the arcuate portion and the corresponding member of the medical instrument, and from a radially outer-most surface of the flange, the edge surface extends: proximally away from the distal end of the probe cover, and radially inwardly. 16 . The probe cover of claim 15 , wherein the section comprises an annular weakened section of the probe cover disposed adjacent to the arcuate portion. 17 . The probe cover of claim 15 , wherein the wall forms a substantially frustoconical body of the probe cover. 18 . The probe cover of claim 15 , wherein the edge surface: comprises a substantially linear surface, and circumferentially surrounds an annular groove formed in an outer face of the flange. 19 . The probe cover of claim 15 , further comprising a plurality of convex tabs circumferentially spaced on a surface of the flange. 20 . The probe cover of claim 15 , the section having a greater flexibility than a portion of the wall disposed adjacent and distal to the section. 21 . The probe cover of claim 15 , wherein the arcuate portion comprises a substantially concave portion of the wall surrounding the longitudinal axis. 22 . A method of manufacturing a probe cover, comprising: forming a distal end of the probe cover; forming a proximal end of the probe cover opposite the distal end; forming a continuous wall of the probe cover extending proximally from the distal end of the probe cover, the wall including an inner surface facing a central longitudinal axis of the probe cover; forming a cove with the inner surface, at least part of the cove extending radially away from the longitudinal axis; and forming a flange at the proximal end, the flange including a surface configured to receive a force from an ejector mechanism, and a proximally-facing outer face spaced from the first surface, wherein: a section of the wall is configured to flex in response to the force being applied to the first surface, and the proximally-facing outer face of the flange forms: a base of the probe cover at a proximal-most surface of the flange, and an edge surface, wherein from a radially outer-most surface of the flange, the edge surface extends: proximally away from the distal end of the probe cover, and radially inwardly. 23 . The method of claim 22 , wherein forming the probe cover comprises forming the probe cover from a polymer and via an injection molding process. 24 . The method of claim 22 , further comprising dispo