[1] Nabavizadeh N, Elliott D A, Chen Y Y et al. Image guided radiation therapy (IGRT) practice patterns and IGRT's impact on workflow and treatment planning: results from a national survey of American society for radiation oncology members[J]. International Journal of Radiation Oncology*Biology*Physics, 94, 850-857(2016).

[2] Seyedin S N, Bassalow R, Mawlawi O R et al. The potential of biology-guided radiation therapy in thoracic cancer: a preliminary treatment planning study[J]. Frontiers in Oncology, 12, 921473(2022).

[3] Ding X C, Fan P P, Xie P et al. Ten-year outcomes of intensity-modulated radiotherapy (IMRT) combine with chemotherapy versus IMRT alone for stage II nasopharyngeal carcinoma in the real-world study (RWD)[J]. Cancer Management and Research, 11, 8893-8903(2019).

[4] Perumal B, Etti S H, Ranganathan V et al. An empirical method for splitting arcs in VMAT[J]. Physica Medica, 88, 264-271(2021).

[5] van Rooijen D C, van Wieringen N, Stippel G et al. Dose-guided radiotherapy: potential benefit of online dose recalculation for stereotactic lung irradiation in patients with non-small-cell lung cancer[J]. International Journal of Radiation Oncology*Biology*Physics, 83, e557-e562(2012).

[6] WANG Ming, SUN Tiantian, LIAO Sheng et al. A review of the current status and progress of fiber-optic dosimeters for proton therapy dosimetry[J/OL]. Nuclear Techniques. https://link.cnki.net/urlid/31.1342.TL.20241210.1539.002

[7] Malicki J. The importance of accurate treatment planning,delivery,and dose verification[J]. Reports of Practical Oncology and Radiotherapy, 17, 63-65(2012).

[8] Wang Y, Liu Y Y, Wu B et al. Experimental investigation on the radiation background inside body counters[J]. Nuclear Science and Techniques, 33, 20(2022).

[9] Moran J M, Dempsey M, Eisbruch A et al. Safety considerations for IMRT: executive summary[J]. Practical Radiation Oncology, 1, 190-195(2011).

[10] Chera B S, Jackson M, Mazur L M et al. Improving quality of patient care by improving daily practice in radiation oncology[J]. Seminars in Radiation Oncology, 22, 77-85(2012).

[11] Kinj R, Muggeo E, Schiappacasse L et al. Stereotactic body radiation therapy in patients with oligometastatic disease: clinical state of the art and perspectives[J]. Cancers, 14, 1152(2022).

[12] Sveistrup J, af Rosenschöld P M, Deasy J O et al. Improvement in toxicity in high risk prostate cancer patients treated with image-guided intensity-modulated radiotherapy compared to 3D conformal radiotherapy without daily image guidance[J]. Radiation Oncology, 9, 44(2014).

[13] SHEN Wentong, TU Yu, WANG Jianhua et al. Dosimetric verification of the intensity modulated radiation therapy[J]. Radiation Protection, 27, 257-263(2007).

[14] WEI Zengquan, XIE Hongmei, LI Wenjian et al. Determination of Bragg peak location for heavy ion bean using ionization chambers[J]. Nuclear Techniques, 19, 18-20(1996).

[15] CAI Yaqian, YANG Qingxi, DING Kaizhong et al. Use of radiochromic film for diagnosis of accelerator beam position[J]. Nuclear Techniques, 42, 010202(2019).

[16] XU Xuechun, WEI Sheng, XIN Yong et al. Preparation of radiochromic films based on a triarylanino methane compound and corresponding research on electron irradiation dosimetry[J]. Nuclear Techniques, 37, 29-32(2014).

[17] Low D A, Moran J M, Dempsey J F et al. Dosimetry tools and techniques for IMRT[J]. Medical Physics, 38, 1313-1338(2011).

[18] Baldock C. Historical overview of the development of gel dosimetry: another personal perspective[J]. Journal of Physics: Conference Series, 164, 012002(2009).

[19] Carson M E, Molineu A, Taylor P A et al. Examining credentialing criteria and poor performance indicators for IROC Houston's anthropomorphic head and neck phantom[J]. Medical Physics, 43, 6491-6496(2016).

[20] Chan M F, Lewis D, Yu X. Is it possible to publish a calibration function for radiochromic film?[J]. International Journal of Medical Physics,Clinical Engineering and Radiation Oncology, 3, 25-30(2014).

[21] De D Y. Radiation dosimetry by use of radiosensitive hydrogels and polymers: mechanisms,state-of-the-art and perspective from 3D to 4D[J]. Gels, 8, 599(2022).

[22] Fathi F, Rashidi M R, Pakchin P S et al. Photonic crystal based biosensors: Emerging inverse opals for biomarker detection[J]. Talanta, 221, 121615(2021).

[23] Zhang X, Yin T, Ge J P. Thermochromic photonic crystal paper with integrated multilayer structure and fast thermal response: a waterproof and mechanically stable material for structural-colored thermal printing[J]. Advanced Materials, 36, e2309344(2024).

[24] Lu X D, Wang X H, Li X Y et al. Preparation of patterned photonic crystals with high fastness and iridescence effect via resist-screen printing[J]. ACS Applied Materials & Interfaces, 15, 31935-31942(2023).

[25] Hong W, Yuan Z K, Chen X D. Structural color materials for optical anticounterfeiting[J]. Small, 16, 1907626(2020).

[26] Cai Z Y, Li Z W, Ravaine S et al. From colloidal particles to photonic crystals: advances in self-assembly and their emerging applications[J]. Chemical Society Reviews, 50, 5898-5951(2021).

[27] Wang H, Zhang H, Chen Z Y et al. Polymer-based responsive structural color materials[J]. Progress in Materials Science, 135, 101091(2023).

[28] Hou J, Li M Z, Song Y L. Patterned colloidal photonic crystals[J]. Angewandte Chemie International Edition, 57, 2544-2553(2018).

[29] Ai M X, Wang Z H, Chen X M et al. Multi-color inkless UV printing using angle-independent structural color paper[J]. Journal of Materials Chemistry C, 10, 16446-16452(2022).

[30] Wang Y L, Zhao Q L, Du X M. Inkless multi-color writing and copying of laser-programmable photonic crystals[J]. Materials Horizons, 7, 1341-1347(2020).

[31] Morana A, Girard S, Marin E et al. Dependence of the voids-fiber Bragg grating radiation response on temperature,dose,and dose rate[J]. IEEE Transactions on Nuclear Science, 65, 1619-1623(2018).

[32] Morana A, Girard S, Marin E et al. Radiation-response of fiber Bragg gratings at low temperatures[J]. IEEE Transactions on Nuclear Science, 67, 1637-1642(2020).

[33] Wang Z H, Wang Y L, Ge Z Q et al. Color-phase readout radiochromic photonic crystal dosimeter[J]. Matter, 5, 4060-4075(2022).

[34] Wang Z H, Chen X M, Wang T T et al. A high-resolution 3D radiochromic hydrogel photonic crystal dosimeter for clinical radiotherapy[J/OL]. Materials Horizons.

[35] Tian Y, Wang Z H, Cao S Y et al. Connective tissue inspired elastomer-based hydrogel for artificial skin via radiation-indued penetrating polymerization[J]. Nature Communications, 15, 636(2024).

[36] Chiappelli M C, Ribbe A, Hauser A W et al. Photonic polymer multilayers for colorimetric radiation sensing[J]. Sensors and Actuators B: Chemical, 208, 85-89(2015).

[37] Zhang P, Ma X L, Zhang C F et al. X-ray triggered color-tunable microgel-based interferometers for radiation dose sensing[J]. Chemical Engineering Journal, 464, 142519(2023).

[38] Wang Y J, Zhang P, Serpe M J et al. Interferometers utilizing reversible X-ray-induced chemical changes in poly(N-isopropylacrylamide) microgels[J]. Chinese Journal of Polymer Science, 42, 1915-1924(2024).