Mesolensing I. High Probability Lensing Without Large Optical Depth

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arXiv:astro-ph/0511633v1 21 Nov 2005SUBMITTEDTOAPJPreprinttypesetusingLATEXstyleemulateapjv.11/12/01

MESOLENSING:I.HIGHPROBABILITYLENSINGWITHOUTLARGEOPTICALDEPTHROSANNEDISTEFANO

Harvard-SmithsonianCenterforAstrophysics,60GardenStreet,Cambridge,MA02138DepartmentofPhysicsandAstronomy,TuftsUniversity,Medford,MA02155SubmittedtoApJ,22April2005

ABSTRACTInavarietyofastronomicalsituations,thereisarelativelyhighprobabilitythatasingleisolatedlenswillproduceadetectableevent.ThehighprobabilityiscausedbysomecombinationofalargeEinsteinangle,fastangularmotion,andadensebackgroundfield.Werefertohigh-probabilitylensesasmesolenses.Themesolensingregimeiscomplementarytotheregimeinwhichtheopticaldepthishigh,inthatitappliestoisolatedlensesinsteadoftodenselensfields.Mesolensingiscomplementarytomicrolensing,becauseitiswellsuitedtothestudyofdifferentlenspopulations,andalsobecausedifferentobservingandanalysisstrategiesarerequiredtooptimizethediscoveryandstudyofmesolenses.Planetaryandstellarmasseslocatedwithin1−2kpcareexamplesofmesolenses.Weshowthattheirpresencecanbedetectedagainstawidevarietyofbackgroundfields,usingdistinctivesignaturesofbothtimevariabilityandspatialeffects.Timesignaturescanbeidenticaltothoseofmicrolensing,butcanalsoincludebaselinejitter,extremeapparentchromaticity,eventswellfitbylensmodelsinwhichseveralindependentsourcesaresimultaneouslylensed,andsequencesofevents.Spatialsignaturesincludeastrometriclensingofsurfacebrightnessfluctuations,aswellaspatternsoftimevariabilitythatsweepacrossthebackgroundfieldasthelensmoves.Wide-fieldmonitoringprograms,suchasPan-STARRSandLSST,arewell-suitedtothestudyofmesolensing.Inaddition,highresolutionobservationsoftheregionbehindaknownmasstravelingacrossabackgroundfieldcanuselensingeffectstomeasurethelensmassandstudyitsmultiplicity.

1.MESOLENSING

Gravitationallensingwasfirstobservedbymeasuringshifts,ontheorderofanarcsecond,intheapparentpositionsofdistantbrightsources,suchasstarslensedbytheSun(Dyson,Edding-ton,&Davidson1920;Eddingtonetal.1919)orquasarslensedbyinterveninggalaxyclusters(Walsh,Carswell,&Weymann1979).Astheangularresolutionoftelescopeshasimproved,thespatialeffectscausedbylensinghavehelpedtoprobethemassdistributionsofinterveninglargemassdistributions.Evenwhenimagescannotberesolved,timevariabilitymayprovideevidencethatlensinghasoccurred.Lensingofquasarsbystarsindistantgalaxies,e.g.,producesimageseparationsontheorderofmicroarcseconds,generallytoosmalltobere-solved.Microlensingcanbestudied,however,byobservingtimevariationsintheimagefluxes(seeKochanek2004andreferencestherein).Infact,becausetheprojectedseparationbetweenstarsinadistantgalaxycanbecomparabletothesizeoftheirEinsteinrings,theprobabilitythatanindividualsourceisbeinglensedbyaninterveningstar(i.e.,theopticaldepth)canbeclosetounity.Furthermore,thehighdensityoflensesisassociatedwithcausticstructuresthatproducedistinctivelightcurvefeatures.Theterm“microlensing"isalsousedtodescribelensingbystellar-massobjectslocated,e.g.,intheHalo,deflectinglightfromstarsinneighboringgalaxies.Althoughtheimagesepa-rationsareontheorderofamilliarcsecond,theyaretypicallynotresolved,anditistimevariabilitythatprovidesbelievableevidenceoflensing.TheprobabilitythatagivenmicrolensintheHaloisproducingadetectableeventaretypicallysmall(10−7−10−5).Thetimesignaturesassociatedwiththelensingofasingleorbinarystarbyapointorbinarylensaredistinctive.Theyaredifficulttomimicindatasetsthatspanseveralyears(Paczy´nski1996).Inthispaperweexploreanintermediate(“meso")regime,inwhichanindividualisolatedmasshasahighprobabilityof

lensingabackgroundsource.TheprobabilitythatamasswillserveasalensmaybehighbecausetheEinsteinangleislarge,orbecausetheangularmotionofthelensislarge.Largeval-uesoftheEinsteinangleandlargeangularmotionscanalsoproducemeasurablespatialeffects.Signaturesofmesolensingthereforeincludebothspatialandtimeeffects.Themesolensregimeiscomplementarytotheregimeinwhichtheopticaldepthishigh.Inthelattercase,thelensden-sityislargeenoughtoensureahighprobabilityoflensing.Inthemesolensingcase,thelensingprobabilityishighbecauseitislikelythat,overarelativelyshortintervaloftime,theEin-steinringofanindividuallenswillencompassthepositionsofsourcesbrightenoughtobedetectablymagnified.WhilesupermassiveBHsinthecentersofgalaxies,orintermediate-massBHsinourownGalaxymayserveashigh-probabilitylenses,theconcreteexampleswewillfocusoninthispaper(DiStefano2005a)arenearbystellar-massobjectslocatedwithinroughlyakpcofEarth,orplanet-massobjectssomewhatclosertous.Themaindistinctionbetweenthesenearbypopulationsandtheclassicalmicrolenspopulationsisthateachmesolenshasahigherprobabilityofservingasalens.Theassociatedlightcurveprofilesof“events"maybeidenticaltoormayberadicallydifferentfromthosetypicallyidentifiedwithmicrolensing.Spatialeffectsdirectlyassociatedwithlens-ingorwiththemotionofthelensmayalsoprovideindependentevidenceoflensing.Insomecasestheradiationfromthelensmaybedirectlydetectable.